@article {3727, title = {Diosgenin enhances liposome-enabled nucleic acid delivery and CRISPR/Cas9-mediated gene editing by modulating endocytic pathways}, journal = {Frontiers in Bioengineering and Biotechnology}, volume = {10}, year = {2023}, month = {01/2023}, doi = {10.3389/fbioe.2022.1031049}, url = {https://doi.org/10.3389\%2Ffbioe.2022.1031049}, author = {Brijesh Lohchania and Abisha Crystal Christopher and Porkizhi Arjunan and Gokulnath Mahalingam and Durga Kathirvelu and Aishwarya Prasannan and Vigneshwaran Venkatesan and Pankaj Taneja and Mohan Kumar KM and Saravanabhavan Thangavel and Srujan Marepally} } @article {3870, title = {High-affinity binding of celastrol to monomeric α-synuclein mitigates in~vitro aggregation.}, journal = {J Biomol Struct Dyn}, year = {2023}, month = {2023 Feb 06}, pages = {1-11}, abstract = {

α-Synuclein (αSyn) aggregation is associated with Parkinson{\textquoteright}s disease (PD). The region αSyn acts as the nucleation {\textquoteright}master controller{\textquoteright} and αSyn as a {\textquoteright}secondary nucleation site{\textquoteright}. They drive monomeric αSyn to aggregation. Small molecules targeting these motifs are promising for disease-modifying therapy. Using computational techniques, we screened thirty phytochemicals for αSyn binding. The top three compounds were experimentally validated for their binding affinity. Amongst them, celastrol showed high binding affinity. NMR analysis confirmed stable αSyn-celastrol interactions involving several residues in the N-terminus and NAC regions but not in the C-terminal tail. Importantly, celastrol interacted extensively with the key motifs that drive αSyn aggregation. Thioflavin-T assay indicated that celastrol reduced αSyn aggregation. Thus, celastrol holds promise as a potent drug candidate for PD.Communicated by Ramaswamy H. Sarma.

}, issn = {1538-0254}, doi = {10.1080/07391102.2023.2175379}, author = {R, Kavya and Aouti, Snehal and Jos, Sneha and Prasad, Thazhe Kootteri and K N, Kumuda and Unni, Sruthi and Padmanabhan, Balasundaram and Kamariah, Neelagandan and Padavattan, Sivaraman and Mythri, Rajeswara Babu} } @article {2881, title = {Age-stratified adeno-associated virus serotype 3 neutralizing and total antibody prevalence in hemophilia A patients from India.}, journal = {J Med Virol}, volume = {94}, year = {2022}, month = {2022 Sep}, pages = {4542-4547}, abstract = {

Gene therapy using an adeno-associated virus (AAV) vector offers a new treatment option for individuals with monogenetic disorders. The major bottleneck is the presence of pre-existing anti-AAV antibodies, which impacts its use. Even very low titers of neutralizing antibodies (NAb) to capsids from natural AAV infections have been reported to inhibit the transduction of intravenously administered AAV in animal models and are associated with limited efficacy in human trials. Assessing the level of pre-existing NAb is important for determining the primary eligibility of patients for AAV vector-based gene therapy clinical trials. Techniques used to screen AAV-antibodies include AAV capsid enzyme-linked immunosorbent assay\ (ELISA) and transduction inhibition assay (TIA) for detecting total capsid-binding (TAb) and Nab, respectively. In this study, we screened 521 individuals with hemophilia A from India for TAb and NAb using ELISA and TIA, respectively. The prevalence of TAb and NAb in hemophilia A patients from India were 96\% and 77.5\%, respectively. There was a significant increase in anti-AAV3 NAb prevalence with age in the hemophilia A patient group from India. There was a trend in anti-AAV3 TAb positivity between the pediatric age group (94.4\%) and the adult age group (97.4\%).

}, keywords = {Adult, Animals, Antibodies, Neutralizing, Antibodies, Viral, Child, Dependovirus, Genetic Vectors, Hemophilia A, Humans, Prevalence, Serogroup}, issn = {1096-9071}, doi = {10.1002/jmv.27859}, author = {Daniel, Hubert D-J and Kumar, Sanjay and Kannangai, Rajesh and J, Farzana and Joel, Joseph N and Abraham, Aby and Lakshmi, Kavitha M and Agbandje-McKenna, Mavis and Coleman, Kirsten E and Srivastava, Arun and Srivastava, Alok and Abraham, Asha M} } @article {2504, title = {Assessment of the inherent chondrogenic potential of human articular cartilage-derived chondroprogenitors in pellet culture using a novel whole pellet processing approach.}, journal = {J Orthop}, volume = {31}, year = {2022}, month = {2022 May-Jun}, pages = {45-51}, abstract = {

Purpose: Cartilage-derived chondroprogenitors have been reported to possess the biological potential for cartilage repair. However, its inherent chondrogenic potential in pellet culture needs evaluation. In-vitro cartilage regeneration models based on pellet cultures have been employed to evaluate the chondrogenic potential of stem cells. Evaluation of the degree of differentiation routinely involves paraffin embedding, sectioning, and immunohistochemical staining of the pellet. However, since chondrogenic differentiation is commonly non-uniform, processing random sections could lead to inaccurate conclusions. The study aimed at assessing the inherent lineage bias of chondroprogenitors with and without chondrogenic induction, using a novel whole pellet processing technique.

Methods: Human chondroprogenitors (n=3) were evaluated for MSC markers and processed in pellet cultures either with stromal medium (uninduced) or chondrogenic differentiation medium (induced) for 28 days. The whole pellets and the conventional paraffin-embedded sectioned pellets were subjected to Collagen type II immunostaining and assessed using confocal laser microscopy. The staining intensities of the whole pellet were compared to the paraffin sections and revalidated using qRT-PCR for COL2A1 expression.

Results: Uninduced and induced pellets displayed Collagen type II in all the layers with comparable fluorescence intensities. COL2A1 expression in both pellets was comparable to confocal results. The study demonstrated that uninduced chondroprogenitors in pellet culture possess promising inherent chondrogenic potential. Confocal imaging of whole pellets displayed different degrees of chondrogenic differentiation in the entire pellet, thus its probable in-vivo behavior.

Conclusion: The novel approach presented in this study could serve as an efficient in-vitro alternative for understanding translational application for cartilage repair.

}, issn = {0972-978X}, doi = {10.1016/j.jor.2022.03.007}, author = {Johnson, Noel Naveen and Amirtham, Soosai Manickam and Sandya Rani, B and Sathishkumar, Solomon and Rebekah, Grace and Vinod, Elizabeth} } @article {2466, title = {The CCR5 Gene Edited CD34+CD90+ Hematopoietic Stem Cell Population Serves as an Optimal Graft Source for HIV Gene Therapy}, journal = {Front. Immunol}, year = {2022}, abstract = {

Transplantation of allogenic hematopoietic stem and progenitor cells (HSPCs) with C-C chemokine receptor type 5 (CCR5) Δ32 genotype generates HIV-1 resistant immune cells. CCR5 gene edited autologous HSPCs can be a potential alternative to hematopoietic stem cell transplantation (HSCT) from HLA-matched CCR5 null donor. However, the clinical application of gene edited autologous HSPCs is critically limited by the quality of the graft, as HIV also infects the HSPCs. In this study, by using mobilized HSPCs from healthy donors, we show that the CD34+CD90+ hematopoietic stem cells (HSCs) express 7-fold lower CD4/CCR5 HIV receptors, higher levels of SAMHD1 anti-viral restriction factor, and possess lower susceptibility to HIV infection than the CD34+CD90- hematopoietic progenitor cells. Further, the treatment with small molecule cocktail of Resveratrol, UM729 and SR1(RUS) improved the in vivo engraftment potential of CD34+CD90+ HSCs. To demonstrate that CD34+CD90+ HSC population as an ideal graft for HIV gene therapy, we sort purified CD34+CD90+ HSCs, treated with RUS and then gene edited the CCR5 with single sgRNA. On transplantation, 100,000 CD34+CD90+ HSCs were sufficient for long-term repopulation of the entire bone marrow of NBSGW mice. Importantly, the gene editing efficiency of ~90\% in the infused product was maintained in vivo, facilitating the generation of CCR5 null immune cells, resistant to HIV infection. Altogether, CCR5 gene editing of CD34+CD90+ HSCs provide an ideal gene manipulation strategy for autologous HSCT based gene therapy for HIV infection.

}, doi = {https://doi.org/10.3389/fimmu.2022.792684}, author = {Karthik V. Karuppusamy and John Paul Demosthenes and Vigneshwaran Venkatesan and Abisha Crystal Christopher and Prathibha Babu and Manojkumar K. Azhagiri and Annlin Jacob and Veena Vadhini Ramalingam and Sumathi Rangaraj and Mohankumar Kumarasamypet Murugesan and Srujan Marepally and George Varghese and Alok Srivastava and Rajesh Kannangai and Saravanabhavan Thangavel} } @article {3340, title = {CRISPR/Cas9 Gene Editing of Hematopoietic Stem and Progenitor Cells for Gene Therapy Applications.}, journal = {J Vis Exp}, year = {2022}, month = {2022 08 09}, abstract = {

CRISPR/Cas9 is a highly versatile and efficient gene-editing tool adopted widely to correct various genetic mutations. The feasibility of gene manipulation of hematopoietic stem and progenitor cells (HSPCs) in vitro makes HSPCs an ideal target cell for gene therapy. However, HSPCs moderately lose their engraftment and multilineage repopulation potential in ex vivo culture. In the present study, ideal culture conditions are described that improves HSPC engraftment and generate an increased number of gene-modified cells in vivo. The current report displays optimized in vitro culture conditions, including the type of culture media, unique small molecule cocktail supplementation, cytokine concentration, cell culture plates, and culture density. In addition to that, an optimized HSPC gene-editing procedure, along with the validation of the gene-editing events, are provided. For in vivo validation, the gene-edited HSPCs infusion and post-engraftment analysis in mouse recipients are displayed. The results demonstrated that the culture system increased the frequency of functional HSCs in vitro, resulting in robust engraftment of gene-edited cells in vivo.

}, keywords = {Animals, CRISPR-Cas Systems, Gene Editing, Genetic Therapy, Hematopoietic Stem Cell Transplantation, Hematopoietic Stem Cells, Mice}, issn = {1940-087X}, doi = {10.3791/64064}, author = {Venkatesan, Vigneshwaran and Christopher, Abisha Crystal and Karuppusamy, Karthik V and Babu, Prathibha and Alagiri, Manoj Kumar K and Thangavel, Saravanabhavan} } @article {2502, title = {Influence of Hydrophobicity in the Hydrophilic Region of Cationic Lipids on Enhancing Nucleic Acid Delivery and Gene Editing.}, journal = {ACS Appl Bio Mater}, volume = {5}, year = {2022}, month = {2022 Apr 18}, pages = {1489-1500}, abstract = {

Intracellular delivery of biomolecules using non-viral vectors critically depends on the vectors{\textquoteright} ability to allow the escape and release of the contents from the endosomes. Prior findings demonstrated that aromatic/hydrophobic group-containing amino acids such as phenylalanine (F) and tryptophan (W) destabilize cellular membranes by forming pores in the lipid bilayer. Taking cues from these findings, we have developed four α-tocopherol-based cationic amphiphiles by varying the aromatic/hydrophobic amino acids such as glycine (G), proline (P), phenylalanine (F), and tryptophan (W) as head groups and triazole in the linker region to study their impact on endosomal escape for the enhanced transfection efficacy. The lipids tocopherol-triazole-phenylalanine (TTF) and tocopherol-triazole-tryptophan (TTW) exhibited similar potential to commercial transfecting reagents, Lipofectamine (LF) 3000 and Lipofectamine Messenger Max (LFMM), respectively, in transfecting plasmid DNA and messenger RNA in multiple cultured cell lines. The TTW liposome was also found to be effective in delivering Cas9 mRNA and demonstrated equal efficiency of gene editing AAVS1 locus compared to LFMM in CHO, Neuro-2a, and EA.HY926 cell lines. In this current investigation, it is shown that the synthesized cationic lipids with aromatic hydrophobic R group-containing amino acids are safe, economic, and actually more efficient in nucleic acid delivery and genome-editing applications. These findings can be further explored in the genome-editing approach for treating genetic disorders.

}, keywords = {alpha-Tocopherol, Amino Acids, Cations, Gene Editing, Gene Transfer Techniques, Hydrophobic and Hydrophilic Interactions, Lipids, Nucleic Acids, Phenylalanine, Triazoles, Tryptophan}, issn = {2576-6422}, doi = {10.1021/acsabm.1c01226}, author = {Rapaka, Hithavani and Manturthi, Shireesha and Arjunan, Porkizhi and Venkatesan, Vigneshwaran and Thangavel, Saravanabhavan and Marepally, Srujan and Patri, Srilakshmi V} } @article {2544, title = {Integration of synthetic and natural derivatives revives the therapeutic potential of temozolomide against glioma- an in vitro and in vivo perspective.}, journal = {Life Sci}, volume = {301}, year = {2022}, month = {2022 May 06}, pages = {120609}, abstract = {

AIMS: Malignant gliomas constitute one of the deadly brain tumors with high degeneration rate. Though temozolomide (TMZ) is the first-line drug for glioma, its efficacy has decreased due to chemo-resistance. Repurposing synthetic and natural compounds have gained increasing interest in glioma. Hence, we combined chloroquine (CHL) a synthetic drug, naringenin (NAR) and phloroglucinol (PGL) (natural derivatives), to investigate whether the apoptotic effect of these drugs both alone and in combination, enhances the anti-tumor effects of TMZ in an in vitro and in vivo orthotopic xenograft glioma model.

MAIN METHODS: The cytotoxic effect of the drugs was assessed in C6 (murine) glioma cells, U-87 MG and LN229 (human) glioblastoma cells, primary astrocytes (isolated from rat brain tissues) and HEK-293\ T cells. Mitochondrial depolarization and alterations in the cell cycle was determined by confocal imaging and flow cytometry. The expression of angiogenic and apoptotic markers was evaluated using qRT-PCR and ELISA. The efficacy of the combinatorial treatment was assessed in an orthotopic xenograft model using U-87 MG cells.

KEY FINDINGS: The combinatorial treatment inhibited cell proliferation, induced apoptosis and contributed to cell cycle arrest in glioma cells. The quadruple combinatorial cocktail down-regulated BCL-2 with a concomitant decrease in VEGF. As observed in vitro, the quadruple combinatorial treatment enhanced the median survival of glioma-induced rats with lower cellularity rate.

SIGNIFICANCE: The combination of CHL, NAR and PGL synergistically potentiated the efficacy of TMZ on glioma in vitro and in vivo. Hence, this combination may characterize an advanced strategy for glioma treatment, thereby providing a possible translation to clinical trial.

}, issn = {1879-0631}, doi = {10.1016/j.lfs.2022.120609}, author = {Daisy Precilla, S and Kuduvalli, Shreyas S and Angeline Praveena, E and Thangavel, Saravanabhavan and Anitha, T S} } @article {3338, title = {Modulation of biliverdin dynamics and spectral properties by Sandercyanin.}, journal = {RSC Adv}, volume = {12}, year = {2022}, month = {2022 Jul 06}, pages = {20296-20304}, abstract = {

Biliverdin IX-alpha (BV), a tetrapyrrole, is found ubiquitously in most living organisms. It functions as a metabolite, pigment, and signaling compound. While BV is known to bind to diverse protein families such as heme-metabolizing enzymes and phytochromes, not many BV-bound lipocalins (ubiquitous, small lipid-binding proteins) have been studied. The molecular basis of binding and conformational selectivity of BV in lipocalins remains unexplained. Sandercyanin (SFP)-BV complex is a blue lipocalin protein present in the mucus of the Canadian walleye (). In this study, we present the structures and binding modes of BV to SFP. Using a combination of designed site-directed mutations, X-ray crystallography, UV/VIS, and resonance Raman spectroscopy, we have identified multiple conformations of BV that are stabilized in the binding pocket of SFP. In complex with the protein, these conformers generate varied spectroscopic signatures both in their absorption and fluorescence spectra. We show that despite no covalent anchor, structural heterogeneity of the chromophore is primarily driven by the D-ring pyrrole of BV. Our work shows how conformational promiscuity of BV is correlated to the rearrangement of amino acids in the protein matrix leading to modulation of spectral properties.

}, issn = {2046-2069}, doi = {10.1039/d2ra02880h}, author = {Ghosh, Swagatha and Mondal, Sayan and Yadav, Keerti and Aggarwal, Shantanu and Schaefer, Wayne F and Narayana, Chandrabhas and Subramanian, Ramaswamy} } @article {3716, title = {Omicron infection increases IgG binding to spike protein of predecessor variants.}, journal = {J Med Virol}, year = {2022}, month = {2022 Dec 22}, abstract = {

BACKGROUND: SARS-CoV-2 transmission in India in 2020-2022 was driven predominantly by Wild (Wuhan-Hu-1and D614G), Delta, and Omicron variants. The aim of this study was to examine the effect of infections on the humoral immune response and cross-reactivity to spike proteins of Wuhan-Hu-1, Delta, C.1.2., and Omicron.

OBJECTIVES: Residual archival sera (N=81) received between January 2020 and March 2022 were included. Infection status was inferred by a positive SARS-CoV-2 RT-PCR and/or serology (anti-N and anti-S antibodies) and sequencing of contemporaneous samples (N=18) to infer lineage. We estimated the levels and cross-reactivity of infection-induced sera including Wild, Delta, Omicron as well as vaccine breakthrough infections (Delta and Omicron).

RESULTS: We found ~2-fold increase in spike-specific IgG antibody binding in post-Omicron infection compared to the pre-Omicron period, whilst the change in pre- and post-Delta infections were similar. Further investigation of Omicron-specific humoral responses revealed primary Omicron infection as an inducer of cross-reactive antibodies against predecessor variants, in spite of weaker degree of humoral response compared to Wuhan-Hu-1 and Delta infection. Intriguingly, Omicron vaccine-breakthrough infections when compared with primary infections, exhibited increased humoral responses against RBD (7.7-fold) and Trimeric S (Trimeric form of spike protein) (34.6-fold) in addition to increased binding of IgGs towards previously circulating variants (4.2 - 6.5-fold). Despite Delta breakthrough infections showing a higher level of humoral response against RBD (2.9-fold) and Trimeric S (5.7-fold) compared to primary Delta sera, a demonstrably reduced binding (36-49\%) was observed to Omicron spike protein.

CONCLUSIONS: Omicron vaccine breakthrough infection results in increased intensity of humoral response and wider breadth of IgG binding to spike proteins of antigenically-distinct, predecessor variants. This article is protected by copyright. All rights reserved.

}, issn = {1096-9071}, doi = {10.1002/jmv.28419}, author = {Mahalingam, Gokulnath and Periyasami, Yogapriya and Arjunan, Porkizhi and Subaschandrabose, Rajesh Kumar and Mathivanan, Tamil Venthan and Mathew, Roshlin Susan and Ramya Devi, Kt and Premkumar, Prasanna Samuel and Muliyil, Jayaprakash and Srivastava, Alok and Moorthy, Mahesh and Marepally, Srujan} } @article {2884, title = {Preferential Expansion of Human CD34CD133CD90 Hematopoietic Stem Cells Enhances Gene-Modified Cell Frequency for Gene Therapy.}, journal = {Hum Gene Ther}, volume = {33}, year = {2022}, month = {2022 02}, pages = {188-201}, abstract = {

CD34CD133CD90 hematopoietic stem cells (HSCs) are responsible for long-term multilineage hematopoiesis, and the high frequency of gene-modified HSCs is crucial for the success of hematopoietic stem and progenitor cell (HSPC) gene therapy. However, the culture and gene manipulation steps of HSPC graft preparation significantly reduce the frequency of HSCs, thus necessitating large doses of HSPCs and reagents for the manipulation. In this study, we identified a combination of small molecules, Resveratrol, UM729, and SR1 that preferentially expands CD34CD133CD90 HSCs over other subpopulations of adult HSPCs in culture. The preferential expansion enriches the HSCs in culture, enhances the adhesion, and results in a sixfold increase in the long-term engraftment in NSG mice. Further, the culture-enriched HSCs are more responsive to gene modification by lentiviral transduction and gene editing, increasing the frequency of gene-modified HSCs up to 10-fold . The yield of gene-modified HSCs obtained by the culture enrichment is similar to the sort-purification of HSCs and superior to Cyclosporin-H treatment. Our study addresses a critical challenge of low frequency of gene modified HSCs in HSPC graft by developing and demonstrating a facile HSPC culture condition that increases the frequency of gene-modified cells . This strategy will improve the outcome of HSPC gene therapy and also simplify the gene manipulation process.

}, keywords = {Animals, Antigens, CD34, Fetal Blood, Genetic Therapy, Hematopoietic Stem Cell Transplantation, Hematopoietic Stem Cells, Humans, Mice, Mice, Inbred NOD, Mice, SCID}, issn = {1557-7422}, doi = {10.1089/hum.2021.089}, author = {Christopher, Abisha Crystal and Venkatesan, Vigneshwaran and Karuppusamy, Karthik V and Srinivasan, Saranya and Babu, Prathibha and Azhagiri, Manoj Kumar K and Chambayil, Karthik and Bagchi, Abhirup and Rajendiran, Vignesh and Ravi, Nithin Sam and Kumar, Sanjay and Marepally, Srujan Kumar and Mohankumar, Kumarasamypet Murugesan and Srivastava, Alok and Velayudhan, Shaji R and Thangavel, Saravanabhavan} } @article {2474, title = {Skin-Permeable Nano-Lithocholic Lipidoid Efficiently Alleviates Psoriasis-like Chronic Skin Inflammations.}, journal = {ACS Appl Mater Interfaces}, year = {2022}, month = {2022 Mar 29}, abstract = {

Long-term application of topical therapeutics for psoriasis has a plethora of side effects. Additionally, skin-permeating agents used in their formulations for deeper dermal delivery damage the skin. To address these limitations, we developed novel lithocholic acid analogues that could form lipid nanoparticles (nano-LCs) spontaneously in the aqueous milieu, permeate through the skin, penetrate the deeper dermal layers, and exert anti-inflammatory effects against psoriasis-like chronic skin inflammations. Prior findings demonstrated that lithocholic acid acts as a vitamin D receptor agonist without affecting the Ca metabolism and also as an antagonist for ephrin type-A receptor 2 (EphA2). Taking cues from the previous findings, lithocholic acid derivatives with twin alkyl chains (LC6, LC8, LC10, and LC-12) were synthesized, nanoparticles (nano-LCs) were prepared, and they were evaluated for their skin permeability and anti-inflammatory properties. Among these nano-LCs, nano-LC10 demonstrated superior anti-inflammatory properties and inhibition of keratinocyte proliferation in various cell-based evaluations. Furthermore, the therapeutic efficiency of nano-LC10 was evaluated in an imiquimod-induced psoriasis-like mouse model and demonstrated comparable efficiency with the standard topical formulation, Sorvate, in reducing skin inflammations. Nano-LC10 also reduced systemic inflammation, organ toxicity, and also proinflammatory serum cytokine levels. Overall, nano-lithocholic lipidoid (nano-LC10) can be a potential novel class of therapeutics for topical application in treating psoriasis.

}, issn = {1944-8252}, doi = {10.1021/acsami.1c19180}, author = {Rachamalla, Hari Krishnareddy and Voshavar, Chandrashekhar and Arjunan, Porkizhi and Mahalingam, Gokulnath and Chowath, Rashmi Praksash and Banerjee, Rajkumar and Vemula, Praveen Kumar and Marepally, Srujan} } @article {3345, title = {Snail maintains the stem/progenitor state of skin epithelial cells and carcinomas through the autocrine effect of matricellular protein Mindin.}, journal = {Cell Rep}, volume = {40}, year = {2022}, month = {2022 09 20}, pages = {111390}, abstract = {

Preservation of a small population of cancer stem cells (CSCs) within a heterogeneous carcinoma serves as a paradigm to understand how select cells in a tissue maintain their undifferentiated status. In both embryogenesis and cancer, Snail has been correlated with stemness, but the molecular underpinning of this phenomenon remains largely ill-defined. In models of cutaneous squamous cell carcinoma (cSCC), we discovered a non-epithelial-mesenchymal transition function for the transcription factor Snail in maintaining the stemness of epidermal keratinocytes. Snail-expressing cells secrete the matricellular protein Mindin, which functions in an autocrine fashion to activate a Src-STAT3 pathway to reinforce their stem/progenitor phenotype. This pathway is activated by the engagement of Mindin with the leukocyte-specific integrin, CD11b (ITGAM), which is also unexpectedly expressed by epidermal keratinocytes. Interestingly, disruption of this signaling module in human cSCC attenuates tumorigenesis, suggesting that targeting Mindin would be a promising therapeutic approach to hinder cancer recurrence.

}, keywords = {Carcinoma, Squamous Cell, Cell Line, Tumor, Epithelial Cells, Extracellular Matrix Proteins, Humans, Integrins, Neoplasm Proteins, Neoplasm Recurrence, Local, Neoplastic Stem Cells, Skin Neoplasms, Snail Family Transcription Factors}, issn = {2211-1247}, doi = {10.1016/j.celrep.2022.111390}, author = {Badarinath, Krithika and Dam, Binita and Kataria, Sunny and Zirmire, Ravindra K and Dey, Rakesh and Kansagara, Gaurav and Ajnabi, Johan and Hegde, Akshay and Singh, Randhir and Masudi, Tafheem and Sambath, Janani and Sachithanandan, Sasikala P and Kumar, Prashant and Gulyani, Akash and He, You-Wen and Krishna, Sudhir and Jamora, Colin} } @article {2882, title = {Supplementation of articular cartilage-derived chondroprogenitors with bone morphogenic protein-9 enhances chondrogenesis without affecting hypertrophy.}, journal = {Biotechnol Lett}, year = {2022}, month = {2022 Aug 03}, abstract = {

INTRODUCTION: Chondroprogenitors (CPCs) have emerged as a promising cellular therapy for cartilage-related pathologies due to their inherent primed chondrogenic potential. Studies report that the addition of growth factors such as parathyroid hormone (PTH) and Bone Morphogenic Protein (BMP) enhance the chondroinducive potential in chondrocytes and mesenchymal stem cells. This study evaluated if supplementation of the standard culture medium for cell expansion with 1-34 PTH and BMP-9 would enhance the chondrogenic potential of CPCs and reduce their hypertrophic tendency.

METHODS: Human chondrocytes were isolated from patients undergoing total knee replacement for osteoarthritis (n = 3). Following fibronectin adhesion assay, passage 1 CPCs were divided and further expanded under three culture conditions (a) control, i.e., cells continued under standard culture conditions, (b) 1-34 PTH group, additional intermittent 6\ h exposure with 1-34 PTH and (c) BMP-9 group, additional BMP-9 during culture expansion. All the groups were evaluated for population-doubling, cell cycle analysis, surface marker and gene expression for chondrogenesis, hypertrophy, multilineage differentiation and GAG (glycosaminoglycan)/DNA following chondrogenic differentiation.

RESULTS: Concerning growth kinetics, the BMP-9 group exhibited a significantly lower S-phase and population-doubling when compared to the other two groups. Qualitative analysis for chondrogenic potential (Alcian blue, Safranin O staining and Toluidine blue for GAG) revealed that the BMP-9 group exhibited the highest uptake. The BMP-9 group also showed significantly higher COL2A1 expression than the control group, with no change in the hypertrophy marker expression.

CONCLUSION: BMP-9 can potentially be used as an additive for CPCs expansion, to enhance their chondrogenic potential without affecting their low hypertrophic tendency. The mitigating effects of 1-34PTH on hypertrophy would benefit further investigation when used in combination with BMP-9 to enhance chondrogenesis whilst reducing hypertrophy.

}, issn = {1573-6776}, doi = {10.1007/s10529-022-03280-9}, author = {Padmaja, Kawin and Amirtham, Soosai Manickam and Rebekah, Grace and Sathishkumar, Solomon and Vinod, Elizabeth} } @article {2463, title = {Whole genome sequencing delineates regulatory, copy number, and cryptic splice variants in early onset cardiomyopathy.}, journal = {NPJ Genom Med}, volume = {7}, year = {2022}, month = {2022 Mar 14}, pages = {18}, abstract = {

Cardiomyopathy (CMP) is a heritable disorder. Over 50\% of cases are gene-elusive on clinical gene panel testing. The contribution of variants in non-coding DNA elements that result in cryptic splicing and regulate gene expression has not been explored. We analyzed whole-genome sequencing (WGS) data in a discovery cohort of 209 pediatric CMP patients and 1953 independent replication genomes and exomes. We searched for protein-coding variants, and non-coding variants predicted to affect the function or expression of genes. Thirty-nine percent of cases harbored pathogenic coding variants in known CMP genes, and 5\% harbored high-risk loss-of-function (LoF) variants in additional candidate CMP genes. Fifteen percent harbored high-risk regulatory variants in promoters and enhancers of CMP genes (odds ratio 2.25, p = 6.70 {\texttimes} 10 versus controls). Genes involved in α-dystroglycan glycosylation (FKTN, DTNA) and desmosomal signaling (DSC2, DSG2) were most highly enriched for regulatory variants (odds ratio 6.7-58.1). Functional effects were confirmed in patient myocardium and reporter assays in human cardiomyocytes, and in zebrafish CRISPR knockouts. We provide strong evidence for the genomic contribution of functionally active variants in new genes and in regulatory elements of known CMP genes to early onset CMP.

}, issn = {2056-7944}, doi = {10.1038/s41525-022-00288-y}, author = {Lesurf, Robert and Said, Abdelrahman and Akinrinade, Oyediran and Breckpot, Jeroen and Delfosse, Kathleen and Liu, Ting and Yao, Roderick and Persad, Gabrielle and McKenna, Fintan and Noche, Ramil R and Oliveros, Winona and Mattioli, Kaia and Shah, Shreya and Miron, Anastasia and Yang, Qian and Meng, Guoliang and Yue, Michelle Chan Seng and Sung, Wilson W L and Thiruvahindrapuram, Bhooma and Lougheed, Jane and Oechslin, Erwin and Mondal, Tapas and Bergin, Lynn and Smythe, John and Jayappa, Shashank and Rao, Vinay J and Shenthar, Jayaprakash and Dhandapany, Perundurai S and Semsarian, Christopher and Weintraub, Robert G and Bagnall, Richard D and Ingles, Jodie and Mel{\'e}, Marta and Maass, Philipp G and Ellis, James and Scherer, Stephen W and Mital, Seema} } @article {2364, title = {Analysis of whole exome sequencing in severe mental illness hints at selection of brain development and immune related genes.}, journal = {Sci Rep}, volume = {11}, year = {2021}, month = {2021 Oct 26}, pages = {21088}, abstract = {

Evolutionary trends may underlie some aspects of the risk for common, non-communicable disorders, including psychiatric disease. We analyzed whole exome sequencing data from 80 unique individuals from India coming from families with two or more individuals with severe mental illness. We used Population Branch Statistics (PBS) to identify variants and genes under positive selection and identified 74 genes as candidates for positive selection. Of these, 20 were previously associated with Schizophrenia, Alzheimer{\textquoteright}s disease and cognitive abilities in genome wide association studies. We then checked whether any of these 74 genes were involved in common biological pathways or related to specific cellular or molecular functions. We found that immune related pathways and functions related to innate immunity such as antigen binding were over-represented. We also evaluated for the presence of Neanderthal introgressed segments in these genes and found Neanderthal introgression in a single gene out of the 74 candidate genes. However, the introgression pattern indicates the region is unlikely to be the source for selection. Our findings hint at how selection pressures in individuals from families with a history of severe mental illness may diverge from the general population. Further, it also provides insights into the genetic architecture of severe mental illness, such as schizophrenia and its link to immune factors.

}, issn = {2045-2322}, doi = {10.1038/s41598-021-00123-x}, author = {Mahadevan, Jayant and Pathak, Ajai Kumar and Vemula, Alekhya and Nadella, Ravi Kumar and Viswanath, Biju and Jain, Sanjeev and Purushottam, Meera and Mondal, Mayukh} } @article {2362, title = {Astrocytic reactivity triggered by defective autophagy and metabolic failure causes neurotoxicity in frontotemporal dementia type 3.}, journal = {Stem Cell Reports}, volume = {16}, year = {2021}, month = {2021 Nov 09}, pages = {2736-2751}, abstract = {

Frontotemporal dementia type 3 (FTD3), caused by a point mutation in the charged multivesicular body protein 2B (CHMP2B), affects mitochondrial ultrastructure and the endolysosomal pathway in neurons. To dissect the astrocyte-specific impact of mutant CHMP2B expression, we generated astrocytes from human induced pluripotent stem cells (hiPSCs) and confirmed our findings in CHMP2B mutant mice. Our data provide mechanistic insights into how defective autophagy causes perturbed mitochondrial dynamics with impaired glycolysis, increased reactive oxygen species, and elongated mitochondrial morphology, indicating increased mitochondrial fusion in FTD3 astrocytes. This shift in astrocyte homeostasis triggers a reactive astrocyte phenotype and increased release of toxic cytokines, which accumulate in nuclear factor kappa b (NF-κB) pathway activation with increased production of CHF, LCN2, and C3 causing neurodegeneration.

}, issn = {2213-6711}, doi = {10.1016/j.stemcr.2021.09.013}, author = {Chandrasekaran, Abinaya and Dittlau, Katarina Stoklund and Corsi, Giulia I and Haukedal, Henriette and Doncheva, Nadezhda T and Ramakrishna, Sarayu and Ambardar, Sheetal and Salcedo, Claudia and Schmidt, Sissel I and Zhang, Yu and Cirera, Susanna and Pihl, Maria and Schmid, Benjamin and Nielsen, Troels Tolstrup and Nielsen, J{\o}rgen E and Kolko, Miriam and Kobol{\'a}k, Julianna and Dinny{\'e}s, Andr{\'a}s and Hyttel, Poul and Palakodeti, Dasaradhi and Gorodkin, Jan and Muddashetty, Ravi S and Meyer, Morten and Aldana, Blanca I and Freude, Kristine K} } @article {2292, title = {Cross-diagnostic evaluation of minor physical anomalies in psychiatric disorders.}, journal = {J Psychiatr Res}, volume = {142}, year = {2021}, month = {2021 Jul 20}, pages = {54-62}, abstract = {

BACKGROUND: Minor physical anomalies (MPA) are markers of impaired neurodevelopment during the prenatal stage. Assessing MPA across psychiatric disorders may help understand their shared nature. In addition, MPA in family members would indicate a shared liability and endophenotype potential. We examined familial aggregation of MPA and their role as transdiagnostic and disorder-specific markers of 5 major psychiatric/neuropsychiatric conditions (schizophrenia, bipolar disorder, substance dependence, obsessive-compulsive disorder, and Alzheimer{\textquoteright}s dementia).

METHODS: Modified Waldrop{\textquoteright}s MPA scale was applied on 1321 individuals from 439 transdiagnostic multiplex families and 125 healthy population controls (HC). Stage of fetal development (morphogenetic/phenogenetic)- and anatomical location (craniofacial/peripheral)-based sub-scores were calculated. Familiality and endophenotypic potential of MPA were analyzed with serial negative binomial mixed-effect regression. Cross-diagnostic differences and the effect of family history density (FHD) of each diagnosis on MPA were assessed. Mixed-effects Cox models estimated the influence of MPA on age-at-onset of illness (AAO).

RESULTS: MPA were found to be heritable in families with psychiatric disorders, with a familiality of 0.52. MPA were higher in psychotic disorders after controlling for effects of sex and intrafamilial correlation. Morphogenetic variant MPA was noted to be lower in dementia in comparison to HC. FHD of schizophrenia and bipolar disorder predicted higher, and that of dementia and substance dependence predicted lower MPA. MPA brought forward the AAO [HR:1.07 (1.03-1.11)], and this was more apparent in psychotic disorders.

CONCLUSION: MPA are transmissible in families, are specifically related to the risk of developing psychoses, and predict an earlier age at onset. Neurodevelopmentally informed classification of MPA has the potential to enhance the etiopathogenic and translational understanding of psychiatric disorders.

}, issn = {1879-1379}, doi = {10.1016/j.jpsychires.2021.07.028}, author = {Sreeraj, Vanteemar S and Puzhakkal, Joan C and Holla, Bharath and Nadella, Ravi Kumar and Sheth, Sweta and Balachander, Srinivas and Ithal, Dhruva and Ali, Furkhan and Viswanath, Biju and Muralidharan, Kesavan and Venkatasubramanian, Ganesan and John, John P and Benegal, Vivek and Murthy, Pratima and Varghese, Mathew and Reddy, Yc Janardhan and Jain, Sanjeev} } @article {2215, title = {Decreased dendritic spine density in posterodorsal medial amygdala neurons of proactive coping rats.}, journal = {Behav Brain Res}, volume = {397}, year = {2021}, month = {2021 Jan 15}, pages = {112940}, abstract = {

There are large individual differences in the way animals, including humans, behaviorally and physiologically cope with environmental challenges and opportunities. Rodents with either a proactive or reactive coping style not only differ in their capacity to adapt successfully to environmental conditions, but also have a differential susceptibility to develop stress-related (psycho)pathologies when coping fails. In this study, we explored if there are structural neuronal differences in spine density in brain regions important for the regulation of stress coping styles. For this, the individual coping styles of wild-type Groningen (WTG) rats were determined using their level of offensive aggressiveness assessed in the resident-intruder paradigm. Subsequently, brains from proactive (high-aggressive) and reactive (low-aggressive) rats were Golgi-cox stained for spine quantification. The results reveal that dendritic spine densities in the dorsal hippocampal CA1 region and basolateral amygdala are similar in rats with proactive and reactive coping styles. Interestingly, however, dendritic spine density in the medial amygdala (MeA) is strikingly reduced in the proactive coping rats. This brain region is reported to be strongly involved in rivalry aggression which is the criterion by which the coping styles in our study are dissociated. The possibility that structural differences in spine density in the MeA are involved in other behavioral traits of distinct coping styles needs further investigation.

}, issn = {1872-7549}, doi = {10.1016/j.bbr.2020.112940}, author = {Anilkumar, Shobha and Patel, Deepika and de Boer, Sietse F and Chattarji, Sumantra and Buwalda, Bauke} } @article {2323, title = {Genomic characterization and epidemiology of an emerging SARS-CoV-2 variant in Delhi, India.}, journal = {Science}, year = {2021}, month = {2021 Oct 14}, pages = {eabj9932}, abstract = {

Delhi, the national capital of India, has experienced multiple SARS-CoV-2 outbreaks in 2020 and reached population seropositivity of over 50\% by 2021. During April 2021, the city became overwhelmed by COVID-19 cases and fatalities, as a new variant B.1.617.2 (Delta) replaced B.1.1.7 (Alpha). A Bayesian model explains the growth advantage of Delta through a combination of increased transmissibility and reduced sensitivity to immune responses generated against earlier variants (median estimates; {\texttimes}1.5-fold, 20\% reduction). Seropositivity of an employee and family cohort increased from 42\% to 87.5\% between March and July 2021, with 27\% reinfections, as judged by increased antibody concentration after a previous decline. The likely high transmissibility and partial evasion of immunity by the Delta variant contributed to an overwhelming surge in Delhi.

}, issn = {1095-9203}, doi = {10.1126/science.abj9932}, author = {Dhar, Mahesh S and Marwal, Robin and Vs, Radhakrishnan and Ponnusamy, Kalaiarasan and Jolly, Bani and Bhoyar, Rahul C and Sardana, Viren and Naushin, Salwa and Rophina, Mercy and Mellan, Thomas A and Mishra, Swapnil and Whittaker, Charles and Fatihi, Saman and Datta, Meena and Singh, Priyanka and Sharma, Uma and Ujjainiya, Rajat and Bhatheja, Nitin and Divakar, Mohit Kumar and Singh, Manoj K and Imran, Mohamed and Senthivel, Vigneshwar and Maurya, Ranjeet and Jha, Neha and Mehta, Priyanka and A, Vivekanand and Sharma, Pooja and Vr, Arvinden and Chaudhary, Urmila and Soni, Namita and Thukral, Lipi and Flaxman, Seth and Bhatt, Samir and Pandey, Rajesh and Dash, Debasis and Faruq, Mohammed and Lall, Hemlata and Gogia, Hema and Madan, Preeti and Kulkarni, Sanket and Chauhan, Himanshu and Sengupta, Shantanu and Kabra, Sandhya and Gupta, Ravindra K and Singh, Sujeet K and Agrawal, Anurag and Rakshit, Partha and Nandicoori, Vinay and Tallapaka, Karthik Bharadwaj and Sowpati, Divya Tej and Thangaraj, K and Bashyam, Murali Dharan and Dalal, Ashwin and Sivasubbu, Sridhar and Scaria, Vinod and Parida, Ajay and Raghav, Sunil K and Prasad, Punit and Sarin, Apurva and Mayor, Satyajit and Ramakrishnan, Uma and Palakodeti, Dasaradhi and Seshasayee, Aswin Sai Narain and Bhat, Manoj and Shouche, Yogesh and Pillai, Ajay and Dikid, Tanzin and Das, Saumitra and Maitra, Arindam and Chinnaswamy, Sreedhar and Biswas, Nidhan Kumar and Desai, Anita Sudhir and Pattabiraman, Chitra and Manjunatha, M V and Mani, Reeta S and Arunachal Udupi, Gautam and Abraham, Priya and Atul, Potdar Varsha and Cherian, Sarah S} } @article {2244, title = {Oxylipin biosynthesis reinforces cellular senescence and allows detection of senolysis.}, journal = {Cell Metab}, year = {2021}, month = {2021 Mar 31}, abstract = {

Cellular senescence is a stress or damage response that causes a permanent proliferative arrest and secretion of numerous factors with potent biological activities. This senescence-associated secretory phenotype (SASP) has been characterized largely for secreted proteins that participate in embryogenesis, wound healing, inflammation, and many age-related pathologies. By contrast, lipid components of the SASP are understudied. We show that senescent cells activate the biosynthesis of several oxylipins that promote segments of the SASP and reinforce the proliferative arrest. Notably, senescent cells synthesize and accumulate an unstudied intracellular prostaglandin, 1a,1b-dihomo-15-deoxy-delta-12,14-prostaglandin J2. Released 15-deoxy-delta-12,14-prostaglandin J2 is a biomarker of senolysis in culture and in\ vivo. This and other prostaglandin D2-related lipids promote the senescence arrest and SASP by activating RAS signaling. These data identify an important aspect of cellular senescence and a method to detect senolysis.

}, issn = {1932-7420}, doi = {10.1016/j.cmet.2021.03.008}, author = {Wiley, Christopher D and Sharma, Rishi and Davis, Sonnet S and Lopez-Dominguez, Jose Alberto and Mitchell, Kylie P and Wiley, Samantha and Alimirah, Fatouma and Kim, Dong Eun and Payne, Therese and Rosko, Andrew and Aimontche, Eliezer and Deshpande, Sharvari M and Neri, Francesco and Kuehnemann, Chisaka and Demaria, Marco and Ramanathan, Arvind and Campisi, Judith} } @article {2202, title = {Psychiatric symptoms and syndromes transcending diagnostic boundaries in Indian multiplex families: The cohort of ADBS study.}, journal = {Psychiatry Res}, volume = {296}, year = {2021}, month = {2021 Feb}, pages = {113647}, abstract = {

Syndromes of schizophrenia, bipolar disorder, obsessive-compulsive disorder, substance use disorders and Alzheimer{\textquoteright}s dementia are highly heritable. About 10-20\% of subjects have another affected first degree relative (FDR), and thus represent a {\textquoteright}greater{\textquoteright} genetic susceptibility. We screened 3583 families to identify 481 families with multiple affected members, assessed 1406 individuals in person, and collected information systematically about other relatives. Within the selected families, a third of all FDRs were affected with serious mental illness. Although similar diagnoses aggregated within families, 62\% of the families also had members with other syndromes. Moreover, 15\% of affected individuals met criteria for co-occurrence of two or more syndromes, across their lifetime. Using dimensional assessments, we detected a range of symptom clusters in both affected and unaffected individuals, and across diagnostic categories. Our findings suggest that in multiplex families, there is considerable heterogeneity of clinical syndromes, as well as sub-threshold symptoms. These families would help provide an opportunity for further research using both genetic analyses and biomarkers.

}, issn = {1872-7123}, doi = {10.1016/j.psychres.2020.113647}, author = {Sreeraj, Vanteemar S and Holla, Bharath and Ithal, Dhruva and Nadella, Ravi Kumar and Mahadevan, Jayant and Balachander, Srinivas and Ali, Furkhan and Sheth, Sweta and Narayanaswamy, Janardhanan C and Venkatasubramanian, Ganesan and John, John P and Varghese, Mathew and Benegal, Vivek and Jain, Sanjeev and Reddy, Yc Janardhan and Viswanath, Biju} } @article {2270, title = {Repeated victorious and defeat experiences induce similar apical dendritic spine remodeling in CA1 hippocampus of rats.}, journal = {Behav Brain Res}, volume = {406}, year = {2021}, month = {2021 May 21}, pages = {113243}, abstract = {

In this study, apical dendritic spine density of neurons in hippocampal, amygdalar and prefrontal cortical areas was compared in rats that were repeatedly winning or losing social conflicts. Territorial male wild-type Groningen (WTG) rats were allowed multiple daily attacks (\>20 times) on intruder males in the resident-intruder paradigm. Frequent winning experiences are known to facilitate uncontrolled aggressive behavior reflected in aggressive attacks on anesthetized males which was also observed in the winners in this study. Both winners and losers were socially housed during the experiments; winners with females to stimulate territorial behavior, and losers with two other losing male rats. Twenty-four hours after the last social encounter, brains from experienced residential winners and repeatedly defeated intruder rats were collected and neuronal morphology in selected brain regions was studied via Golgi-Cox staining. Results indicate that spine density in the apical dendrites of the hippocampal CA1 reduced similarly in both winners and losers. In addition, winners showed increased spine densities at the proximal segments (20-30 μm) of the basolateral amygdala neurons and losers tended to show a decreased spine density at the more proximal segments of the infralimbic region of prefrontal cortex neurons. No effect of winning and losing was observed in the medial amygdala. The atrophic effect of repeated defeats in hippocampal and prefrontal regions was anticipated despite the fact that social housing of the repeatedly losing intruder males may have played a protective role. The reduction of hippocampal spine density in the winners seems surprising but supports previous findings in hierarchical dominant males in rat colonies. The dominants showed even greater shrinkage of the apical dendritic arbors of hippocampal CA3 pyramidal neurons compared to the stressed subordinates.

}, issn = {1872-7549}, doi = {10.1016/j.bbr.2021.113243}, author = {Patel, Deepika and Anilkumar, Shobha and Chattarji, Sumantra and de Boer, Sietse F and Buwalda, Bauke} } @article {2372, title = {Ribosomal protein S6 kinase beta-1 gene variants cause hypertrophic cardiomyopathy.}, journal = {J Med Genet}, year = {2021}, month = {2021 Dec 16}, abstract = {

BACKGROUND: Hypertrophic cardiomyopathy (HCM) is a genetic heart muscle disease with preserved or increased ejection fraction in the absence of secondary causes. Mutations in the sarcomeric protein-encoding genes predominantly cause HCM. However, relatively little is known about the genetic impact of signalling proteins on HCM.

METHODS AND RESULTS: Here, using exome and targeted sequencing methods, we analysed two independent cohorts comprising 401 Indian patients with HCM and 3521 Indian controls. We identified novel variants in ribosomal protein S6 kinase beta-1 () gene in two unrelated Indian families as a potential candidate gene for HCM. The two unrelated HCM families had the same heterozygous missense S6K1 variant (p.G47W). In a replication association study, we identified two S6K1 heterozygotes variants (p.Q49K and p.Y62H) in the UK Biobank cardiomyopathy cohort (n=190) compared with matched controls (n=16 479). These variants are neither detected in region-specific controls nor in the human population genome data. Additionally, we observed an S6K1 variant (p.P445S) in an Arab patient with HCM. Functional consequences were evaluated using representative S6K1 mutated proteins compared with wild type in cellular models. The mutated proteins activated the S6K1 and hyperphosphorylated the rpS6 and ERK1/2 signalling cascades, suggesting a gain-of-function effect.

CONCLUSIONS: Our study demonstrates for the first time that the variants in the gene are associated with HCM, and early detection of the variant carriers can help to identify family members at risk and subsequent preventive measures. Further screening in patients with HCM with different ethnic populations will establish the specificity and frequency of gene variants.

}, issn = {1468-6244}, doi = {10.1136/jmedgenet-2021-107866}, author = {Jain, Pratul Kumar and Jayappa, Shashank and Sairam, Thiagarajan and Mittal, Anupam and Paul, Sayan and Rao, Vinay J and Chittora, Harshil and Kashyap, Deepak K and Palakodeti, Dasaradhi and Thangaraj, Kumarasamy and Shenthar, Jayaprakash and Koranchery, Rakesh and Rajendran, Ranjith and Alireza, Haghighi and Mohanan, Kurukkanparampil Sreedharan and Rathinavel, Andiappan and Dhandapany, Perundurai S} } @article {2206, title = {Role of Hypoxia-Mediated Autophagy in Tumor Cell Death and Survival.}, journal = {Cancers (Basel)}, volume = {13}, year = {2021}, month = {2021 Jan 30}, abstract = {

Programmed cell death or type I apoptosis has been extensively studied and its contribution to the pathogenesis of disease is well established. However, autophagy functions together with apoptosis to determine the overall fate of the cell. The cross talk between this active self-destruction process and apoptosis is quite complex and contradictory as well, but it is unquestionably decisive for cell survival or cell death. Autophagy can promote tumor suppression but also tumor growth by inducing cancer-cell development and proliferation. In this review, we will discuss how autophagy reprograms tumor cells in the context of tumor hypoxic stress. We will illustrate how autophagy acts as both a suppressor and a driver of tumorigenesis through tuning survival in a context dependent manner. We also shed light on the relationship between autophagy and immune response in this complex regulation. A better understanding of the autophagy mechanisms and pathways will undoubtedly ameliorate the design of therapeutics aimed at targeting autophagy for future cancer immunotherapies.

}, issn = {2072-6694}, doi = {10.3390/cancers13030533}, author = {Zaarour, Rania F and Azakir, Bilal and Hajam, Edries Y and Nawafleh, Husam and Zeinelabdin, Nagwa A and Engelsen, Agnete S T and Thiery, J{\'e}rome and Jamora, Colin and Chouaib, Salem} } @article {2363, title = {SARS-CoV-2 B.1.617.2 Delta variant replication and immune evasion.}, journal = {Nature}, volume = {599}, year = {2021}, month = {2021 11}, pages = {114-119}, abstract = {

The B.1.617.2 (Delta) variant of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) was first identified in the state of Maharashtra in late 2020 and spread throughout India, outcompeting pre-existing lineages including B.1.617.1 (Kappa) and B.1.1.7 (Alpha). In vitro, B.1.617.2 is sixfold less sensitive to serum neutralizing antibodies from recovered individuals, and eightfold less sensitive to vaccine-elicited antibodies, compared with wild-type Wuhan-1 bearing D614G. Serum neutralizing titres against B.1.617.2 were lower in ChAdOx1 vaccinees than in BNT162b2 vaccinees. B.1.617.2 spike pseudotyped viruses exhibited compromised sensitivity to monoclonal antibodies to the receptor-binding domain and the amino-terminal domain. B.1.617.2 demonstrated higher replication efficiency than B.1.1.7 in both airway organoid and human airway epithelial systems, associated with B.1.617.2 spike being in a predominantly cleaved state compared with B.1.1.7 spike. The B.1.617.2 spike protein was able to mediate highly efficient syncytium formation that was less sensitive to inhibition by neutralizing antibody, compared with that of wild-type spike. We also observed that B.1.617.2 had higher replication and spike-mediated entry than B.1.617.1, potentially explaining the B.1.617.2 dominance. In an analysis of more than 130 SARS-CoV-2-infected health care workers across three centres in India during a period of mixed lineage circulation, we observed reduced ChAdOx1 vaccine effectiveness against B.1.617.2 relative to non-B.1.617.2, with the caveat of possible residual confounding. Compromised vaccine efficacy against the highly fit and immune-evasive B.1.617.2 Delta variant warrants continued infection control measures in the post-vaccination era.

}, keywords = {Antibodies, Neutralizing, Cell Fusion, Cell Line, COVID-19 Vaccines, Female, Health Personnel, Humans, Immune Evasion, India, Kinetics, Male, SARS-CoV-2, Spike Glycoprotein, Coronavirus, Vaccination, Virus Replication}, issn = {1476-4687}, doi = {10.1038/s41586-021-03944-y}, author = {Mlcochova, Petra and Kemp, Steven A and Dhar, Mahesh Shanker and Papa, Guido and Meng, Bo and Ferreira, Isabella A T M and Datir, Rawlings and Collier, Dami A and Albecka, Anna and Singh, Sujeet and Pandey, Rajesh and Brown, Jonathan and Zhou, Jie and Goonawardane, Niluka and Mishra, Swapnil and Whittaker, Charles and Mellan, Thomas and Marwal, Robin and Datta, Meena and Sengupta, Shantanu and Ponnusamy, Kalaiarasan and Radhakrishnan, Venkatraman Srinivasan and Abdullahi, Adam and Charles, Oscar and Chattopadhyay, Partha and Devi, Priti and Caputo, Daniela and Peacock, Tom and Wattal, Chand and Goel, Neeraj and Satwik, Ambrish and Vaishya, Raju and Agarwal, Meenakshi and Mavousian, Antranik and Lee, Joo Hyeon and Bassi, Jessica and Silacci-Fegni, Chiara and Saliba, Christian and Pinto, Dora and Irie, Takashi and Yoshida, Isao and Hamilton, William L and Sato, Kei and Bhatt, Samir and Flaxman, Seth and James, Leo C and Corti, Davide and Piccoli, Luca and Barclay, Wendy S and Rakshit, Partha and Agrawal, Anurag and Gupta, Ravindra K} } @article {2290, title = {Strategies to target SARS-CoV-2 entry and infection using dual mechanisms of inhibition by acidification inhibitors.}, journal = {PLoS Pathog}, volume = {17}, year = {2021}, month = {2021 07}, pages = {e1009706}, abstract = {

Many viruses utilize the host endo-lysosomal network for infection. Tracing the endocytic itinerary of SARS-CoV-2 can provide insights into viral trafficking and aid in designing new therapeutic strategies. Here, we demonstrate that the receptor binding domain (RBD) of SARS-CoV-2 spike protein is internalized via the pH-dependent CLIC/GEEC (CG) endocytic pathway in human gastric-adenocarcinoma (AGS) cells expressing undetectable levels of ACE2. Ectopic expression of ACE2 (AGS-ACE2) results in RBD traffic via both CG and clathrin-mediated endocytosis. Endosomal acidification inhibitors like BafilomycinA1 and NH4Cl, which inhibit the CG pathway, reduce the uptake of RBD and impede Spike-pseudoviral infection in both AGS and AGS-ACE2 cells. The inhibition by BafilomycinA1 was found to be distinct from Chloroquine which neither affects RBD uptake nor alters endosomal pH, yet attenuates Spike-pseudovirus entry. By screening a subset of FDA-approved inhibitors for functionality similar to BafilomycinA1, we identified Niclosamide as a SARS-CoV-2 entry inhibitor. Further validation using a clinical isolate of SARS-CoV-2 in AGS-ACE2 and Vero cells confirmed its antiviral effect. We propose that Niclosamide, and other drugs which neutralize endosomal pH as well as inhibit the endocytic uptake, could provide broader applicability in subverting infection of viruses entering host cells via a pH-dependent endocytic pathway.

}, keywords = {Ammonium Chloride, Angiotensin-Converting Enzyme 2, Animals, Antiviral Agents, Cell Line, Chlorocebus aethiops, Chloroquine, Clathrin, COVID-19, Drug Synergism, Endocytosis, Endosomes, Humans, Hydrogen-Ion Concentration, Hydroxychloroquine, Macrolides, Niclosamide, Protein Binding, Protein Domains, SARS-CoV-2, Spike Glycoprotein, Coronavirus, Vero Cells, Virus Internalization}, issn = {1553-7374}, doi = {10.1371/journal.ppat.1009706}, author = {Prabhakara, Chaitra and Godbole, Rashmi and Sil, Parijat and Jahnavi, Sowmya and Gulzar, Shah-E-Jahan and van Zanten, Thomas S and Sheth, Dhruv and Subhash, Neeraja and Chandra, Anchal and Shivaraj, Akshatha and Panikulam, Patricia and U, Ibrahim and Nuthakki, Vijay Kumar and Puthiyapurayil, Theja Parassini and Ahmed, Riyaz and Najar, Ashaq Hussain and Lingamallu, Sai Manoz and Das, Snigdhadev and Mahajan, Bhagyashri and Vemula, Praveen and Bharate, Sandip B and Singh, Parvinder Pal and Vishwakarma, Ram and Guha, Arjun and Sundaramurthy, Varadharajan and Mayor, Satyajit} } @article {2245, title = {Systematic evaluation of the impact of defacing on quality and volumetric assessments on T1-weighted MR-images.}, journal = {J Neuroradiol}, year = {2021}, month = {2021 Mar 13}, abstract = {

BACKGROUND AND PURPOSE: Facial features can be potentially reconstructed from structural magnetic resonance images, thereby compromising the confidentiality of study participants. Defacing methods can be applied to MRI images to ensure privacy of study participants. These methods remove facial features, thereby rendering the image unidentifiable. It is commonly assumed that defacing would not have any impact on quantitative assessments of the brain. In this study, we have assessed the impact of different defacing methods on quality and volumetric estimates.

MATERIALS AND METHODS: We performed SPM-, Freesurfer-, pydeface, and FSL-based defacing on 30 T1-weighted images. We statistically compared the change in quality measurements (from MRIQC) and volumes (from SPM, CAT, and Freesurfer) between non-defaced and defaced images. We also calculated the Dice coefficient of each tissue class between non-defaced and defaced images.

RESULTS: Almost all quality measurements and tissue volumes changed after defacing, irrespective of the method used. All tissue volumes decreased post-defacing for CAT, but no such consistent trend was seen for SPM and Freesurfer. Dice coefficients indicated that segmentations are relatively robust; however, partial volumes might be affected leading to changed volumetric estimates.

CONCLUSION: In this study, we demonstrated that volumes and quality measurements get affected differently by defacing methods. It is likely that this will have a significant impact on the reproducibility of experiments. We provide suggestions on ways to minimize the impact of defacing on outcome measurements. Our results warrant the need for robust handling of defaced images at different steps of image processing.

}, issn = {0150-9861}, doi = {10.1016/j.neurad.2021.03.001}, author = {Bhalerao, Gaurav Vivek and Parekh, Pravesh and Saini, Jitender and Venkatasubramanian, Ganesan and John, John P} } @article {2216, title = {A 2-Tyr-1-carboxylate Mononuclear Iron Center Forms the Active Site of a Paracoccus Dimethylformamidase.}, journal = {Angew Chem Int Ed Engl}, volume = {59}, year = {2020}, month = {2020 09 21}, pages = {16961-16966}, abstract = {

N,N-dimethyl formamide (DMF) is an extensively used organic solvent but is also a potent pollutant. Certain bacterial species from genera such as Paracoccus, Pseudomonas, and Alcaligenes have evolved to use DMF as a sole carbon and nitrogen source for growth via degradation by a dimethylformamidase (DMFase). We show that DMFase from Paracoccus sp. strain DMF is a halophilic and thermostable enzyme comprising a multimeric complex of the α β or (α β ) type. One of the three domains of the large subunit and the small subunit are hitherto undescribed protein folds of unknown evolutionary origin. The active site consists of a mononuclear iron coordinated by two Tyr side-chain phenolates and one carboxylate from Glu. The Fe ion in the active site catalyzes the hydrolytic cleavage of the amide bond in DMF. Kinetic characterization reveals that the enzyme shows cooperativity between subunits, and mutagenesis and structural data provide clues to the catalytic mechanism.

}, issn = {1521-3773}, doi = {10.1002/anie.202005332}, author = {Arya, Chetan Kumar and Yadav, Swati and Fine, Jonathan and Casanal, Ana and Chopra, Gaurav and Ramanathan, Gurunath and Vinothkumar, Kutti R and Subramanian, Ramaswamy} } @article {2156, title = {Adverse childhood experiences in families with multiple members diagnosed to have psychiatric illnesses.}, journal = {Aust N Z J Psychiatry}, volume = {54}, year = {2020}, month = {2020 Nov}, pages = {1086-1094}, abstract = {

OBJECTIVE: Adverse childhood experiences are linked to the development of a number of psychiatric illnesses in adulthood. Our study examined the pattern of adverse childhood experiences and their relation to the age of onset of major psychiatric conditions in individuals from families that had ⩾2 first-degree relatives with major psychiatric conditions (multiplex families), identified as part of an ongoing longitudinal study.

METHODS: Our sample consisted of 509 individuals from 215 families. Of these, 268 were affected, i.e., diagnosed with bipolar disorder ( = 61), obsessive-compulsive disorder ( = 58), schizophrenia ( = 52), substance dependence ( = 59) or co-occurring diagnoses ( = 38), while 241 were at-risk first-degree relatives who were either unaffected ( = 210) or had other depressive or anxiety disorders ( = 31). All individuals were evaluated using the Adverse Childhood Experiences - International Questionnaire and total adverse childhood experiences exposure and severity scores were calculated.

RESULTS: It was seen that affected males, as a group, had the greatest adverse childhood experiences exposure and severity scores in our sample. A Cox mixed effects model fit by gender revealed that a higher total adverse childhood experiences severity score was associated with significantly increased risk for an earlier age of onset of psychiatric diagnoses in males. A similar model that evaluated the interaction of diagnosis revealed an earlier age of onset in obsessive-compulsive disorder and substance dependence, but not in schizophrenia and bipolar disorder.

CONCLUSION: Our study indicates that adverse childhood experiences were associated with an earlier onset of major psychiatric conditions in men and individuals diagnosed with obsessive-compulsive disorder and substance dependence. Ongoing longitudinal assessments in first-degree relatives from these families are expected to identify mechanisms underlying this relationship.

}, issn = {1440-1614}, doi = {10.1177/0004867420931157}, author = {Someshwar, Amala and Holla, Bharath and Pansari Agarwal, Preeti and Thomas, Anza and Jose, Anand and Joseph, Boban and Raju, Birudu and Karle, Hariprasad and Muthukumaran, M and Kodancha, Prabhath G and Kumar, Pramod and Reddy, Preethi V and Kumar Nadella, Ravi and Naik, Sanjay T and Mitra, Sayantanava and Mallappagiri, Sreenivasulu and Sreeraj, Vanteemar S and Balachander, Srinivas and Ganesh, Suhas and Murthy, Pratima and Benegal, Vivek and Reddy, Janardhan Yc and Jain, Sanjeev and Mahadevan, Jayant and Viswanath, Biju} } @article {1985, title = {Anabolic SIRT4 Exerts Retrograde Control over TORC1 Signaling by Glutamine Sparing in the Mitochondria.}, journal = {Mol Cell Biol}, volume = {40}, year = {2020}, month = {2020 Jan 03}, abstract = {

Anabolic and catabolic signaling mediated via mTOR and AMPK (AMP-activated kinase) have to be intrinsically coupled to mitochondrial functions for maintaining homeostasis and mitigate cellular/organismal stress. Although glutamine is known to activate mTOR, whether and how differential mitochondrial utilization of glutamine impinges on mTOR signaling has been less explored. Mitochondrial SIRT4, which unlike other sirtuins is induced in a fed state, is known to inhibit catabolic signaling/pathways through the AMPK-PGC1α/SIRT1-peroxisome proliferator-activated receptor α (PPARα) axis and negatively regulate glutamine metabolism via the tricarboxylic acid cycle. However, physiological significance of SIRT4 functions during a fed state is still unknown. Here, we establish SIRT4 as key anabolic factor that activates TORC1 signaling and regulates lipogenesis, autophagy, and cell proliferation. Mechanistically, we demonstrate that the ability of SIRT4 to inhibit anaplerotic conversion of glutamine to α-ketoglutarate potentiates TORC1. Interestingly, we also show that mitochondrial glutamine sparing or utilization is critical for differentially regulating TORC1 under fed and fasted conditions. Moreover, we conclusively show that differential expression of SIRT4 during fed and fasted states is vital for coupling mitochondrial energetics and glutamine utilization with anabolic pathways. These significant findings also illustrate that SIRT4 integrates nutrient inputs with mitochondrial retrograde signals to maintain a balance between anabolic and catabolic pathways.

}, issn = {1098-5549}, doi = {10.1128/MCB.00212-19}, author = {Shaw, Eisha and Talwadekar, Manasi and Rashida, Zeenat and Mohan, Nitya and Acharya, Aishwarya and Khatri, Subhash and Laxman, Sunil and Kolthur-Seetharam, Ullas} } @article {2217, title = {Comparison of CryoEM and X-ray structures of dimethylformamidase.}, journal = {Prog Biophys Mol Biol}, year = {2020}, month = {2020 Jul 28}, abstract = {

Dimethylformamidase (DMFase) catalyzes the hydrolysis of dimethylformamide, an industrial solvent, introduced into the environment by humans. Recently, we determined the structures of dimethylformamidase by electron cryo microscopy and X-ray crystallography revealing a tetrameric enzyme with a mononuclear iron at the active site. DMFase from Paracoccus sp. isolated from a waste water treatment plant around the city of Kanpur in India shows maximal activity at 54\ {\textdegree}C and is halotolerant. The structures determined by both techniques are mostly identical and the largest difference is in a loop near the active site. This loop could play a role in co-operativity between the monomers. A number of non-protein densities are observed in the EM map, which are modelled as water molecules. Comparison of the structures determined by the two methods reveals conserved water molecules that could play a structural role. The higher stability, unusual active site and negligible activity at low temperature makes this a very good model to study enzyme mechanism by cryoEM.

}, issn = {1873-1732}, doi = {10.1016/j.pbiomolbio.2020.06.008}, author = {Vinothkumar, Kutti R and Arya, Chetan Kumar and Ramanathan, Gurunath and Subramanian, Ramaswamy} } @article {2146, title = {Differential flexibility leading to crucial microelastic properties of asymmetric lipid vesicles for cellular transfection: A combined spectroscopic and atomic force microscopy studies.}, journal = {Colloids Surf B Biointerfaces}, volume = {196}, year = {2020}, month = {2020 Sep 21}, pages = {111363}, abstract = {

The role of microscopic elasticity of nano-carriers in cellular uptake is an important aspect in biomedical research. Herein we have used AFM nano-indentation force spectroscopy and F{\"o}rster resonance energy transfer (FRET) measurements to probe microelastic properties of three novel cationic liposomes based on di-alkyl dihydroxy ethyl ammonium chloride based lipids having asymmetry in their hydrophobic chains (Lip1818, Lip1814 and Lip1810). AFM data reveals that symmetry in hydrophobic chains of a cationic lipid (Lip1818) imparts higher rigidity to the resulting liposomes than those based on asymmetric lipids (Lip1814 and Lip1810). The stiffness of the cationic liposomes is found to decrease with increasing asymmetry in the hydrophobic lipid chains in the order of Lip1818 \> Lip1814 \> lip1810. FRET measurements between Coumarin 500 (Donor) and Merocyanine 540 (Acceptor) have revealed that full width at half-maxima (hw) of the probability distribution (P(r)) of donor-acceptor distance (r), increases in an order Lip1818 \< Lip1814 \< Lip1810 with increasing asymmetry of the hydrophobic lipid chains. This increase in width (hw) of the donor-acceptor distance distributions is reflective of increasing flexibility of the liposomes with increasing asymmetry of their constituent lipids. Thus, the results from AFM and FRET studies are complementary to each other and indicates that an increase in asymmetry of the hydrophobic lipid chains increases elasticity and or flexibility of the corresponding liposomes. Cell biology experiments confirm that liposomal flexibility or rigidity directly influences their cellular transfection efficiency, where Lip1814 is found to be superior than the other two liposomes manifesting that a critical balance between flexibility and rigidity of the cationic liposomes is key to efficient cellular uptake. Taken together, our studies reveal how asymmetry in the molecular architecture of the hydrophobic lipid chains influences the microelastic properties of the liposomes, and hence, their cellular uptake efficiency.

}, issn = {1873-4367}, doi = {10.1016/j.colsurfb.2020.111363}, author = {Mukherjee, Dipanjan and Rakshit, Tatini and Singh, Priya and Mondal, Suman and Paul, Debashish and Ahir, Manisha and Adhikari, Arghya and Puthiyapurayil, Theja P and Vemula, Praveen Kumar and Senapati, Dulal and Das, Ranjan and Pal, Samir Kumar} } @article {2155, title = {Genetic, clinical, molecular, and pathogenic aspects of the South Asian-specific polymorphic MYBPC3 variant.}, journal = {Biophys Rev}, volume = {12}, year = {2020}, month = {2020 Aug}, pages = {1065-1084}, abstract = {

Hypertrophic cardiomyopathy (HCM) is a cardiac genetic disease characterized by ventricular enlargement, diastolic dysfunction, and increased risk for sudden cardiac death. Sarcomeric genetic defects are the predominant known cause of HCM. In particular, mutations in the myosin-binding protein C gene (MYBPC3) are associated with ~ 40\% of all HCM cases in which a genetic basis has been established. A decade ago, our group reported a 25-base pair deletion in intron 32 of MYBPC3 (MYBPC3) that is uniquely prevalent in South Asians and is associated with autosomal dominant cardiomyopathy. Although our studies suggest that this deletion results in left ventricular dysfunction, cardiomyopathies, and heart failure, the precise mechanism by which this variant predisposes to heart disease remains unclear. Increasingly appreciated, however, is the contribution of secondary risk factors, additional mutations, and lifestyle choices in augmenting or modifying the HCM phenotype in MYBPC3 carriers. Therefore, the goal of this review article is to summarize the current research dedicated to understanding the molecular pathophysiology of HCM in South Asians with the MYBPC3 variant. An emphasis is to review the latest techniques currently applied to explore the MYBPC3 pathogenesis and to provide a foundation for developing new diagnostic strategies and advances in therapeutics.

}, issn = {1867-2450}, doi = {10.1007/s12551-020-00725-1}, author = {Arif, Mohammed and Nabavizadeh, Pooneh and Song, Taejeong and Desai, Darshini and Singh, Rohit and Bazrafshan, Sholeh and Kumar, Mohit and Wang, Yigang and Gilbert, Richard J and Dhandapany, Perundurai S and Becker, Richard C and Kranias, Evangelia G and Sadayappan, Sakthivel} } @article {2078, title = {Improved detection of RNA foci in amyotrophic lateral sclerosis post-mortem tissue using BaseScope{\texttrademark} shows a lack of association with cognitive dysfunction.}, journal = {Brain Commun}, volume = {2}, year = {2020}, month = {2020 Jan 31}, pages = {fcaa009}, abstract = {

The hexanucleotide repeat expansion is the commonest known genetic mutation in amyotrophic lateral sclerosis. A neuropathological hallmark is the intracellular accumulation of RNA foci. The role that RNA foci play in the pathogenesis of amyotrophic lateral sclerosis is widely debated. Historically, RNA foci have been identified using hybridization. Here, we have implemented BaseScope{\texttrademark}, a high-resolution modified hybridization technique. We demonstrate that previous studies have underestimated the abundance of RNA foci in neurons and glia. This improved detection allowed us to investigate the abundance, regional distribution and cell type specificity of antisense RNA foci in post-mortem brain and spinal cord tissue of six deeply clinically phenotyped patients and six age- and sex-matched controls. We find a correlation between RNA foci and the accumulation of transactive response DNA-binding protein of 43 kDa in spinal motor neurons ( = 0.93; = 0.008), but not in glia or cortical motor neurons. We also demonstrate that there is no correlation between the presence of RNA foci and the accumulation of transactive response DNA binding protein of 43 kDa in extra-motor brain regions. Furthermore, there is no association between the presence of RNA foci and cognitive indices. These results highlight the utility of BaseScope{\texttrademark} in the clinicopathological assessment of the role of antisense RNA foci in .

}, issn = {2632-1297}, doi = {10.1093/braincomms/fcaa009}, author = {Mehta, Arpan R and Selvaraj, Bhuvaneish T and Barton, Samantha K and McDade, Karina and Abrahams, Sharon and Chandran, Siddharthan and Smith, Colin and Gregory, Jenna M} } @article {2068, title = {Lithium response in bipolar disorder correlates with improved cell viability of patient derived cell lines.}, journal = {Sci Rep}, volume = {10}, year = {2020}, month = {2020 May 04}, pages = {7428}, abstract = {

Lithium is an effective, well-established treatment for bipolar disorder (BD). However, the mechanisms of its action, and reasons for variations in clinical response, are unclear. We used neural precursor cells (NPCs) and lymphoblastoid cell lines (LCLs), from BD patients characterized for clinical response to lithium (using the "Alda scale" and "NIMH Retrospective Life chart method"), to interrogate cellular phenotypes related to both disease and clinical lithium response. NPCs from two biologically related BD patients who differed in their clinical response to lithium were compared with healthy controls. RNA-Seq and analysis, mitochondrial membrane potential (MMP), cell viability, and cell proliferation parameters were assessed, with and without in vitro lithium. These parameters were also examined in LCLs from 25 BD patients (16 lithium responders and 9 non-responders), and 12 controls. MMP was lower in both NPCs and LCLs from BD; but it was reversed with in vitro lithium only in LCLs, and this was unrelated to clinical lithium response. The higher cell proliferation observed in BD was unaffected by in vitro lithium. Cell death was greater in BD. However, LCLs from clinical lithium responders could be rescued by addition of in vitro lithium. In vitro lithium also enhanced BCL2 and GSK3B expression in these cells. Our findings indicate cellular phenotypes related to the disease (MMP, cell proliferation) in both NPCs and LCLs; and those related to clinical lithium response (cell viability, BCL2/GSK3B expression) in LCLs.

}, issn = {2045-2322}, doi = {10.1038/s41598-020-64202-1}, author = {Paul, Pradip and Iyer, Shruti and Nadella, Ravi Kumar and Nayak, Rashmitha and Chellappa, Anirudh S and Ambardar, Sheetal and Sud, Reeteka and Sukumaran, Salil K and Purushottam, Meera and Jain, Sanjeev and Viswanath, Biju} } @article {2066, title = {The primary cilium dampens proliferative signaling and represses a G2/M transcriptional network in quiescent myoblasts.}, journal = {BMC Mol Cell Biol}, volume = {21}, year = {2020}, month = {2020 Apr 15}, pages = {25}, abstract = {

BACKGROUND: Reversible cell cycle arrest (quiescence/G0) is characteristic of adult stem cells and is actively controlled at multiple levels. Quiescent cells also extend a primary cilium, which functions as a signaling hub. Primary cilia have been shown to be important in multiple developmental processes, and are implicated in numerous developmental disorders. Although the association of the cilium with G0 is established, the role of the cilium in the control of the quiescence program is still poorly understood.

RESULTS: Primary cilia are dynamically regulated across different states of cell cycle exit in skeletal muscle myoblasts: quiescent myoblasts elaborate a primary cilium in vivo and in vitro, but terminally differentiated myofibers do not. Myoblasts where ciliogenesis is ablated using RNAi against a key ciliary assembly protein (IFT88) can exit the cell cycle but display an altered quiescence program and impaired self-renewal. Specifically, the G0 transcriptome in IFT88 knockdown cells is aberrantly enriched for G2/M regulators, suggesting a focused repression of this network by the cilium. Cilium-ablated cells also exhibit features of activation including enhanced activity of Wnt and mitogen signaling and elevated protein synthesis via inactivation of the translational repressor 4E-BP1.

CONCLUSIONS: Taken together, our results show that the primary cilium integrates and dampens proliferative signaling, represses translation and G2/M genes, and is integral to the establishment of the quiescence program.

}, issn = {2661-8850}, doi = {10.1186/s12860-020-00266-1}, author = {Venugopal, Nisha and Ghosh, Ananga and Gala, Hardik and Aloysius, Ajoy and Vyas, Neha and Dhawan, Jyotsna} } @article {2150, title = {The Rad53-Spt21 and Tel1 axes couple glucose tolerance to histone dosage and subtelomeric silencing.}, journal = {Nat Commun}, volume = {11}, year = {2020}, month = {2020 08 19}, pages = {4154}, abstract = {

The DNA damage response (DDR) coordinates DNA metabolism with nuclear and non-nuclear processes. The DDR kinase Rad53 controls histone degradation to assist DNA repair. However, Rad53 deficiency causes histone-dependent growth defects in the absence of DNA damage, pointing out unknown physiological functions of the Rad53-histone axis. Here we show that histone dosage control by Rad53 ensures metabolic homeostasis. Under physiological conditions, Rad53 regulates histone levels through inhibitory phosphorylation of the transcription factor Spt21 on Ser276. Rad53-Spt21 mutants display severe glucose dependence, caused by excess histones through two separable mechanisms: dampening of acetyl-coenzyme A-dependent carbon metabolism through histone hyper-acetylation, and Sirtuin-mediated silencing of starvation-induced subtelomeric domains. We further demonstrate that repression of subtelomere silencing by physiological Tel1 and Rpd3 activities coveys tolerance to glucose restriction. Our findings identify DDR mutations, histone imbalances and aberrant subtelomeric chromatin as interconnected causes of glucose dependence, implying that DDR kinases coordinate metabolism and epigenetic changes.

}, keywords = {Acetylation, Ataxia Telangiectasia Mutated Proteins, Cell Cycle Proteins, Checkpoint Kinase 2, DNA Damage, DNA Repair, Gene Silencing, Glucose, Histone Deacetylases, Histones, Intracellular Signaling Peptides and Proteins, Mutation, Phosphorylation, Protein-Serine-Threonine Kinases, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Serine, Telomere, Transcription Factors}, issn = {2041-1723}, doi = {10.1038/s41467-020-17961-4}, author = {Bruhn, Christopher and Ajazi, Arta and Ferrari, Elisa and Lanz, Michael Charles and Batrin, Renaud and Choudhary, Ramveer and Walvekar, Adhish and Laxman, Sunil and Longhese, Maria Pia and Fabre, Emmanuelle and Smolka, Marcus Bustamente and Foiani, Marco} } @article {2210, title = {VEGFA Promoter Polymorphisms rs699947 and rs35569394 Are Associated With the Risk of Anterior Cruciate Ligament Ruptures Among Indian Athletes: A Cross-sectional Study.}, journal = {Orthop J Sports Med}, volume = {8}, year = {2020}, month = {2020 Dec}, pages = {2325967120964472}, abstract = {

Background: Associations of genetic variants within certain fibril-forming genes have previously been observed with anterior cruciate ligament (ACL) injuries. Evidence suggests a significant role of angiogenesis-associated cytokines in remodeling the ligament fibril matrix after mechanical loading and maintaining structural and functional integrity of the ligament. Functional polymorphisms within the vascular endothelial growth factor A (VEGFA) gene have emerged as plausible candidates owing to their role in the regulation of angiogenic responses.

Hypothesis: VEGFA promoter polymorphisms rs699947 and rs35569394 are associated with ACL injury risk among athletes.

Study Design: Cross-sectional study; Level of evidence, 3.

Methods: A total of 90 Indian athletes with radiologically confirmed or surgically proven isolated ACL tears and 76 matched-control athletes were selected for the present cross-sectional genetic association study. Oral mouthwash samples were collected from all the case and control athletes and genotyped for VEGFA rs699947 and rs35569394 using the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method.

Results: The A allele (rs699947) was significantly overrepresented in the ACL group (C vs A allele: odds ratio [OR], 1.68 [95\% CI, 1.08-2.60]; = .021) (CC vs CA + AA: OR, 2.69 [95\% CI, 1.37-5.26]; = .004). There was a greater frequency of the AA genotype in the ACL group in comparison with the control group (OR, 3.38 [95\% CI, 1.23-9.28]; = .016) when only male athletes were compared. Likewise, there was a greater frequency of the I allele (rs35569394) in the ACL group (D vs I allele: OR, 1.64 [95\% CI, 1.06-2.55]; = .025) (DD vs ID + II: OR, 2.61 [95\% CI, 1.31-5.21]; = .006). The A-I haplotype was overrepresented in the ACL group compared with the control group (OR, 1.68 [95\% CI, 1.08-2.60]; χ = 5.320; = .021), and both the polymorphisms were found to be in complete linkage disequilibrium ( = 0.929; logarithm of the odds score = 63.74; D{\textquoteright} = 1.0). Female athletes did not show any difference in genotype or allele frequency.

Conclusion: This is the first study to investigate the association of VEGFA promoter polymorphisms in ACL tears among Indian athletes. Increased frequencies of the A allele (rs699947) and I allele (rs35569394) were observed in the ACL group. These results suggest that sequence variants in the VEGF gene are associated with ACL injury risk among athletes. Further research with long-term follow-ups measuring VEGF expression levels during recovery is warranted to establish its role in ACL injuries and healing.

}, issn = {2325-9671}, doi = {10.1177/2325967120964472}, author = {Shukla, Manish and Gupta, Rahul and Pandey, Vivek and Rochette, Jacques and Dhandapany, Perundurai S and Tiwari, Pramod Kumar and Amrathlal, Rabbind Singh} } @article {1645, title = {Altered steady state and activity-dependent de novo protein expression in fragile X syndrome.}, journal = {Nat Commun}, volume = {10}, year = {2019}, month = {2019 Apr 12}, pages = {1710}, abstract = {

Whether fragile X mental retardation protein (FMRP) target mRNAs and neuronal activity contributing to elevated basal neuronal protein synthesis in fragile X syndrome (FXS) is unclear. Our proteomic experiments reveal that the de novo translational profile in FXS model mice is altered at steady state and in response to metabotropic glutamate receptor (mGluR) stimulation, but the proteins expressed differ under these conditions. Several altered proteins, including Hexokinase\ 1 and Ras, also are expressed in the blood of\ FXS model mice and pharmacological treatments previously reported to ameliorate phenotypes modify their abundance in blood. In addition, plasma levels of Hexokinase\ 1 and Ras differ between FXS patients and healthy volunteers. Our data suggest that brain-based de novo proteomics in FXS model mice can be used to find altered expression of proteins in blood that could serve as disease-state biomarkers in individuals with FXS.

}, issn = {2041-1723}, doi = {10.1038/s41467-019-09553-8}, author = {Bowling, Heather and Bhattacharya, Aditi and Zhang, Guoan and Alam, Danyal and Lebowitz, Joseph Z and Bohm-Levine, Nathaniel and Lin, Derek and Singha, Priyangvada and Mamcarz, Maggie and Puckett, Rosemary and Zhou, Lili and Aryal, Sameer and Sharp, Kevin and Kirshenbaum, Kent and Berry-Kravis, Elizabeth and Neubert, Thomas A and Klann, Eric} } @article {1734, title = {Characterization of new variant human ES line VH9 hESC (INSTEMe001-a): a tool for human stem cell and cancer research.}, journal = {Stem Cell Res}, volume = {37}, year = {2019}, month = {2019 May}, pages = {101444}, abstract = {

Human pluripotent stem cells (hPSCs) acquire changes at the genomic level upon proliferation and differentiation (Peterson and Loring, 2014). Studies from International Stem Cell Initiative and independent laboratories identified a copy number variant (CNV) in hES cell lines displaying a normal karyotype, which provided a selective advantage to hES cells in culture. In our laboratory we have identified variant H9-hESC (derived from H9-hESC) with normal karyotype, pluripotency expression, differentiation profile but with altered traits of high cell survival and low E-CADHERIN expression.

}, issn = {1876-7753}, doi = {10.1016/j.scr.2019.101444}, author = {Arasala, Radhika Rao and Jayaram, Manjunath and Chattai, Jagamohan and Kumarasamy, Thangaraj and Sambasivan, Ramkumar and Rampalli, Shravanti} } @article {1604, title = {Derivation of iPSC lines from two patients with familial Alzheimer{\textquoteright}s disease from India.}, journal = {Stem Cell Res}, volume = {34}, year = {2019}, month = {2019 Jan}, pages = {101370}, abstract = {

The current prevalence of diagnosable dementia in India is 1\% of people over 60 years (~3.7 million people), but is estimated to increase significantly, as ~15\% world{\textquoteright}s aged population (\>65 years) would be resident here by 2020 (Shah et al., 2016). While several mutations that pose a familial risk have been identified, the ethnic background may influence disease susceptibility, clinical presentation and treatment response. In this study, we report a detailed characterization of two representative HiPSC lines from a well-characterized dementia cohort from India. Availability of these lines, and associated molecular and clinical information, would be useful in the detailed exploration of the genomic contribution(s) to AD.

}, issn = {1876-7753}, doi = {10.1016/j.scr.2018.101370}, author = {Najar, Ashaq H and Sneha, K M and Ashok, Aparna and Babu, Swathy and Subramaniam, Anand G and Kannan, Ramkrishnan and Viswanath, Biju and Purushottam, Meera and Varghese, Mathew and Parvez, Suhel and Panicker, Mitradas M and Mukherjee, Odity and Jain, Sanjeev} } @article {1739, title = {Effect of early maternal separation stress on attention, spatial learning and social interaction behaviour.}, journal = {Exp Brain Res}, volume = {237}, year = {2019}, month = {2019 Aug}, pages = {1993-2010}, abstract = {

Early life stress is known to influence affective and cognitive functions in later life but comprehensive explanation for the impact of early life stress on attentional functions, behavioural control and social behaviour is inadequate. The early life stress was induced by exposing rat pups to 6\ h of maternal separation and isolation (MS) stress from postnatal days 4-14 i.e. during SHRP period. The long-term impact of MS in these rats was evaluated by assessing anxiety, sociability, social preference, spatial learning and memory along with a detailed evaluation of attentional functions during young adulthood period. Adult male MS rats showed increased anxiety-like behaviour, impaired flexibility in social interactions, and increased reward-seeking behaviour. MS rats also showed faster spatial learning in the partially baited radial arm maze and exhibited moderately enhanced sustained attention in the 5-choice serial reaction time task (5CSRTT). These results suggest that early MS has both positive and negative consequences in adulthood. Increased cognitive ability in MS rats, as evidenced by the improved sustained attention and spatial learning and memory, is usually advantageous and indicates positive influences of early stressors that might lead to the development of resilience and enhanced compensatory mechanisms later in adulthood. MS stress has compromised flexibility in social behaviour that promotes solitary lifestyle and social isolation. Heightened reward-seeking behaviour, as shown by the MS rats, could be a predisposing factor for substance abuse and addiction. Thus, our study highlights the crucial and differential impact of early life challenges on behaviour during adulthood and suggests that the positive aspects could be an asset that may be utilized to suppress the negative effects of early life stress in adulthood.

}, issn = {1432-1106}, doi = {10.1007/s00221-019-05567-2}, author = {Kambali, Maltesh Y and Anshu, Kumari and Kutty, Bindu M and Muddashetty, Ravi S and Laxmi, T Rao} } @article {1603, title = {Enhancement of the gut barrier integrity by a microbial metabolite through the Nrf2 pathway.}, journal = {Nat Commun}, volume = {10}, year = {2019}, month = {2019 01 09}, pages = {89}, abstract = {

The importance of gut microbiota in human health and pathophysiology is undisputable. Despite the abundance of metagenomics data, the functional dynamics of gut microbiota in human health and disease remain elusive. Urolithin A (UroA), a major microbial metabolite derived from polyphenolics of berries and pomegranate fruits displays anti-inflammatory, anti-oxidative, and anti-ageing activities. Here, we show that UroA and its potent synthetic analogue (UAS03) significantly enhance gut barrier function and inhibit unwarranted inflammation. We demonstrate that UroA and UAS03 exert their barrier functions through activation of aryl hydrocarbon receptor (AhR)- nuclear factor erythroid 2-related factor 2 (Nrf2)-dependent pathways to upregulate epithelial tight junction proteins. Importantly, treatment with these compounds attenuated colitis in pre-clinical models by remedying barrier dysfunction in addition to anti-inflammatory activities. Cumulatively, the results highlight how microbial metabolites provide two-pronged beneficial activities at gut epithelium by enhancing barrier functions and reducing inflammation to protect from colonic diseases.

}, keywords = {Animals, Basic Helix-Loop-Helix Transcription Factors, Caco-2 Cells, Coumarins, Epithelial Cells, Gene Expression Regulation, HT29 Cells, Humans, Intestinal Mucosa, Macrophages, Mice, Mice, Inbred C57BL, Mice, Knockout, NF-E2-Related Factor 2, Receptors, Aryl Hydrocarbon, Specific Pathogen-Free Organisms, Tight Junction Proteins}, issn = {2041-1723}, doi = {10.1038/s41467-018-07859-7}, author = {Singh, Rajbir and Chandrashekharappa, Sandeep and Bodduluri, Sobha R and Baby, Becca V and Hegde, Bindu and Kotla, Niranjan G and Hiwale, Ankita A and Saiyed, Taslimarif and Patel, Paresh and Vijay-Kumar, Matam and Langille, Morgan G I and Douglas, Gavin M and Cheng, Xi and Rouchka, Eric C and Waigel, Sabine J and Dryden, Gerald W and Alatassi, Houda and Zhang, Huang-Ge and Haribabu, Bodduluri and Vemula, Praveen K and Jala, Venkatakrishna R} } @article {1607, title = {Exome sequencing in families with severe mental illness identifies novel and rare variants in genes implicated in Mendelian neuropsychiatric syndromes.}, journal = {Psychiatry Clin Neurosci}, volume = {73}, year = {2019}, month = {2019 Jan}, pages = {11-19}, abstract = {

AIM: Severe mental illnesses (SMI), such as bipolar disorder and schizophrenia, are highly heritable, and have a complex pattern of inheritance. Genome-wide association studies detect a part of the heritability, which can be attributed to common genetic variation. Examination of rare variants with next-generation sequencing may add to the understanding of the genetic architecture of SMI.

METHODS: We analyzed 32 ill subjects from eight multiplex families and 33 healthy individuals using whole-exome sequencing. Prioritized variants were selected by a three-step filtering process, which included: deleteriousness by five in silico algorithms; sharing within families by affected individuals; rarity in South Asian sample estimated using the Exome Aggregation Consortium data; and complete absence of these variants in control individuals from the same gene pool.

RESULTS: We identified 42 rare, non-synonymous deleterious variants (~5 per pedigree) in this study. None of the variants were shared across families, indicating a {\textquoteright}private{\textquoteright} mutational profile. Twenty (47.6\%) of the variant harboring genes were previously reported to contribute to the risk of diverse neuropsychiatric syndromes, nine (21.4\%) of which were of Mendelian inheritance. These included genes carrying novel deleterious variants, such as the GRM1 gene implicated in spinocerebellar ataxia 44 and the NIPBL gene implicated in Cornelia de Lange syndrome.

CONCLUSION: Next-generation sequencing approaches in family-based studies are useful to identify novel and rare variants in genes for complex disorders like SMI. The findings of the study suggest a potential phenotypic burden of rare variants in Mendelian disease genes, indicating pleiotropic effects in the etiology of SMI.

}, keywords = {Bipolar Disorder, Exome, Female, Genetic Predisposition to Disease, Genetic Variation, Genome-Wide Association Study, Humans, Male, Pedigree, Phenotype, Schizophrenia}, issn = {1440-1819}, doi = {10.1111/pcn.12788}, author = {Ganesh, Suhas and Ahmed P, Husayn and Nadella, Ravi K and More, Ravi P and Seshadri, Manasa and Viswanath, Biju and Rao, Mahendra and Jain, Sanjeev and Mukherjee, Odity} } @article {1613, title = {INDEX-db: The Indian Exome Reference Database (Phase I).}, journal = {J Comput Biol}, volume = {26}, year = {2019}, month = {2019 Mar}, pages = {225-234}, abstract = {

Deep sequencing-based genetic mapping has greatly enhanced the ability to catalog variants with plausible disease association. Confirming how these identified variants contribute to specific disease conditions, across human populations, poses the next challenge. Differential selection pressure may impact the frequency of genetic variations, and thus detection of association with disease conditions, across populations. To understand genotype to phenotype correlations, it thus becomes important to first understand the spectrum of genetic variation within a population by creating a reference map. In this study, we report the development of phase I of a new database of genetic variations called INDian EXome database (INDEX-db), from the Indian population, with an aim to establish a centralized database of integrated information. This could be useful for researchers involved in studying disease mechanisms at clinical, genetic, and cellular levels.

}, issn = {1557-8666}, doi = {10.1089/cmb.2018.0199}, author = {Ahmed P, Husayn and V, Vidhya and More, Ravi Prabhakar and Viswanath, Biju and Jain, Sanjeev and Rao, Mahendra S and Mukherjee, Odity} } @article {1600, title = {Making NSC and Neurons from Patient-Derived Tissue Samples.}, journal = {Methods Mol Biol}, volume = {1919}, year = {2019}, month = {2019}, pages = {9-24}, abstract = {

The human brain and mechanisms underlying its functioning has been a field of intense research due to its complexity, inaccessibility, and the large numbers of debilitating disorders affecting this organ. Model organisms have provided great insight into the functioning of the mammalian brain; however, there exist many features unique to humans which need detailed understanding. In this context, human pluripotent stem cells (HPSCs) have emerged as a promising resource.In the developing brain, cortical diversification is achieved by neural stem cells/neural progenitor cells (NSCs/NPCs) by altering its potency (from multipotent to unipotent) and differentiation capacity (from neurogenesis to gliogenesis). Recent development in tissue reprogramming allows for derivation of NSCs/NPCs from either healthy control subjects manipulated to carry disease mutations or affected individuals carrying specific disease-causing mutations allowing for detailed evaluation of cellular phenotype, pharmacological manipulation, and/or toxicological screening.In this chapter, we will discuss HPSC differentiation into neural stem cells (NSCs) and neurons. We will review the mechanism underlying in vivo neural differentiation and methods which recapitulate this in vitro. We describe a method of deriving NSCs and differentiated mature neurons highlighting key steps of the core protocol. We also provide detailed information of the transcription factor and morphogen map of the developing brain which can be used as a guide to derive region- and lineage-specific NSCs and differentiated neurons.

}, issn = {1940-6029}, doi = {10.1007/978-1-4939-9007-8_2}, author = {Mukherjee, Odity and Acharya, Shubhra and Rao, Mahendra} } @article {1984, title = {Novel Series of Methyl 3-(Substituted Benzoyl)-7-Substituted-2-Phenylindolizine-1-Carboxylates as Promising Anti-Inflammatory Agents: Molecular Modeling Studies.}, journal = {Biomolecules}, volume = {9}, year = {2019}, month = {2019 Oct 28}, abstract = {

The cyclooxygenase-2 (COX-2) enzyme is considered to be an important target for developing novel anti-inflammatory agents. Selective COX-2 inhibitors offer the advantage of lower adverse effects that are commonly associated with non-selective COX inhibitors. In this work, a novel series of methyl 3-(substituted benzoyl)-7-substituted-2-phenylindolizine-1-carboxylates was synthesized and evaluated for COX-2 inhibitory activity. Compound was identified as the most active compound of the series with an IC of 6.71 M, which is comparable to the IC of indomethacin, a marketed non-steroidal anti-inflammatory drug (NSAID). Molecular modeling and crystallographic studies were conducted to further characterize the compounds and gain better understanding of the binding interactions between the compounds and the residues at the active site of the COX-2 enzyme. The pharmacokinetic properties and potential toxic effects were predicted for all the synthesized compounds, which indicated good drug-like properties. Thus, these synthesized compounds can be considered as potential lead compounds for developing effective anti-inflammatory therapeutic agents.

}, issn = {2218-273X}, doi = {10.3390/biom9110661}, author = {Venugopala, Katharigatta N and Al-Attraqchi, Omar H A and Tratrat, Christophe and Nayak, Susanta K and Morsy, Mohamed A and Aldhubiab, Bandar E and Attimarad, Mahesh and Nair, Anroop B and Sreeharsha, Nagaraja and Venugopala, Rashmi and Haroun, Michelyne and Girish, Meravanige B and Chandrashekharappa, Sandeep and Alwassil, Osama I and Odhav, Bharti} } @article {1989, title = {Secretion of leukotrienes by senescent lung fibroblasts promotes pulmonary fibrosis.}, journal = {JCI Insight}, volume = {4}, year = {2019}, month = {2019 Dec 19}, abstract = {

Accumulation of senescent cells is associated with the progression of pulmonary fibrosis, but mechanisms accounting for this linkage are not well understood. To explore this issue, we investigated whether a class of biologically active profibrotic lipids, the leukotrienes (LT), is part of the senescence-associated secretory phenotype. The analysis of conditioned medium (CM), lipid extracts, and gene expression of LT biosynthesis enzymes revealed that senescent cells secreted LT, regardless of the origin of the cells or the modality of senescence induction. The synthesis of LT was biphasic and followed by antifibrotic prostaglandin (PG) secretion. The LT-rich CM of senescent lung fibroblasts (IMR-90) induced profibrotic signaling in naive fibroblasts, which were abrogated by inhibitors of ALOX5, the principal enzyme in LT biosynthesis. The bleomycin-induced expression of genes encoding LT and PG synthases, level of cysteinyl LT in the bronchoalveolar lavage, and overall fibrosis were reduced upon senescent cell removal either in a genetic mouse model or after senolytic treatment. Quantification of ALOX5+ cells in lung explants obtained from idiopathic pulmonary fibrosis (IPF) patients indicated that half of these cells were also senescent (p16Ink4a+). Unlike human fibroblasts from unused donor lungs made senescent by irradiation, senescent IPF fibroblasts secreted LTs but failed to synthesize PGs. This study demonstrates for the first time to our knowledge that senescent cells secrete functional LTs, significantly contributing to the LT pool known to cause or exacerbate IPF.

}, issn = {2379-3708}, doi = {10.1172/jci.insight.130056}, author = {Wiley, Christopher D and Brumwell, Alexis N and Davis, Sonnet S and Jackson, Julia R and Valdovinos, Alexis and Calhoun, Cheresa and Alimirah, Fatouma and Castellanos, Carlos A and Ruan, Richard and Wei, Ying and Chapman, Harold A and Ramanathan, Arvind and Campisi, Judith and Jourdan Le Saux, Claude} } @article {1981, title = {Stromal cells downregulate miR-23a-5p to activate protective autophagy in acute myeloid leukemia.}, journal = {Cell Death Dis}, volume = {10}, year = {2019}, month = {2019 Sep 30}, pages = {736}, abstract = {

Complex molecular cross talk between stromal cells and the leukemic cells in bone marrow is known to contribute significantly towards drug-resistance. Here, we have identified the molecular events that lead to stromal cells mediated therapy-resistance in acute myeloid leukemia (AML). Our work demonstrates that stromal cells downregulate miR-23a-5p levels in leukemic cells to protect them from the chemotherapy induced apoptosis. Downregulation of miR-23a-5p in leukemic cells leads to upregulation of protective autophagy by targeting TLR2 expression. Further, autophagy inhibitors when used as adjuvants along with conventional drugs can improve drug sensitivity in vitro as well in vivo in a mouse model of leukemia. Our work also demonstrates that this mechanism of bone marrow stromal cell mediated regulation of miR-23a-5p levels and subsequent molecular events are relevant predominantly in myeloid leukemia. Our results illustrate the critical and dynamic role of the bone marrow microenvironment in modulating miRNA expression in leukemic cells which could contribute significantly to drug resistance and subsequent relapse, possibly through persistence of minimal residual disease in this environment.

}, issn = {2041-4889}, doi = {10.1038/s41419-019-1964-8}, author = {Ganesan, Saravanan and Palani, Hamenth Kumar and Lakshmanan, Vairavan and Balasundaram, Nithya and Alex, Ansu Abu and David, Sachin and Venkatraman, Arvind and Korula, Anu and George, Biju and Balasubramanian, Poonkuzhali and Palakodeti, Dasaradhi and Vyas, Neha and Mathews, Vikram} } @article {1738, title = {Sustained correction of associative learning deficits after brief, early treatment in a rat model of Fragile X Syndrome.}, journal = {Sci Transl Med}, volume = {11}, year = {2019}, month = {2019 May 29}, abstract = {

Fragile X Syndrome (FXS) is one of the most common monogenic forms of autism and intellectual disability. Preclinical studies in animal models have highlighted the potential of pharmaceutical intervention strategies for alleviating the symptoms of FXS. However, whether treatment strategies can be tailored to developmental time windows that define the emergence of particular phenotypes is unknown. Similarly, whether a brief, early intervention can have long-lasting beneficial effects, even after treatment cessation, is also unknown. To address these questions, we first examined the developmental profile for the acquisition of associative learning in a rat model of FXS. Associative memory was tested using a range of behavioral paradigms that rely on an animal{\textquoteright}s innate tendency to explore novelty. knockout (KO) rats showed a developmental delay in their acquisition of object-place recognition and did not demonstrate object-place-context recognition paradigm at any age tested (up to 23 weeks of age). Treatment of KO rats with lovastatin between 5 and 9 weeks of age, during the normal developmental period that this associative memory capability is established, prevents the emergence of deficits but has no effect in wild-type animals. Moreover, we observe no regression of cognitive performance in the FXS rats over several months after treatment. This restoration of the normal developmental trajectory of cognitive function is associated with the sustained rescue of both synaptic plasticity and altered protein synthesis. The findings provide proof of concept that the impaired emergence of the cognitive repertoire in neurodevelopmental disorders may be prevented by brief, early pharmacological intervention.

}, issn = {1946-6242}, doi = {10.1126/scitranslmed.aao0498}, author = {Asiminas, Antonis and Jackson, Adam D and Louros, Susana R and Till, Sally M and Spano, Teresa and Dando, Owen and Bear, Mark F and Chattarji, Sumantra and Hardingham, Giles E and Osterweil, Emily K and Wyllie, David J A and Wood, Emma R and Kind, Peter C} } @article {1736, title = {Unraveling the ECM-Immune Cell Crosstalk in Skin Diseases.}, journal = {Front Cell Dev Biol}, volume = {7}, year = {2019}, month = {2019}, pages = {68}, abstract = {

The extracellular matrix (ECM) is a complex network of proteins and proteoglycans secreted by keratinocytes, fibroblasts and immune cells. The function of the skin ECM has expanded from being a scaffold that provides structural integrity, to a more dynamic entity that is constantly remodeled to maintain tissue homeostasis. The ECM functions as ligands for cell surface receptors such as integrins, dystroglycans, and toll-like receptors (TLRs) and regulate cellular signaling and immune cell dynamics. The ECM also acts as a sink for growth factors and cytokines, providing critical cues during epithelial morphogenesis. Dysregulation in the organization and deposition of ECMs lead to a plethora of pathophysiological conditions that are exacerbated by aberrant ECM-immune cell interactions. In this review, we focus on the interplay between ECM and immune cells in the context of skin diseases and also discuss state of the art therapies that target the key molecular players involved.

}, issn = {2296-634X}, doi = {10.3389/fcell.2019.00068}, author = {Bhattacharjee, Oindrila and Ayyangar, Uttkarsh and Kurbet, Ambika S and Ashok, Driti and Raghavan, Srikala} } @article {1217, title = {Chemically diverse small molecule fluorescent chemosensors for copper ion}, journal = {Coordination Chemistry Reviews}, volume = {357}, year = {2018}, pages = {50 - 104}, keywords = {Chemosensors, Fluorescence, Live cell imaging, Small molecules, Turn-off, Turn-on}, issn = {0010-8545}, doi = {https://doi.org/10.1016/j.ccr.2017.11.020}, url = {http://www.sciencedirect.com/science/article/pii/S0010854517306537}, author = {Gandhi Sivaraman and Murugan Iniya and Thangaraj Anand and Niranjan G. Kotla and Omprakash Sunnapu and Subramanian Singaravadivel and Akash Gulyani and Duraisamy Chellappa} } @article {1598, title = {FMRP Interacts with C/D Box snoRNA in the Nucleus and Regulates Ribosomal RNA Methylation.}, journal = {iScience}, volume = {9}, year = {2018}, month = {2018 Nov 30}, pages = {399-411}, abstract = {

FMRP is an RNA-binding protein that is known to localize in the cytoplasm and in the nucleus. Here, we have identified an interaction of FMRP with a specific set of C/D box snoRNAs in the nucleus. C/D box snoRNAs guide 2{\textquoteright}O methylations of ribosomal RNA (rRNA) on defined sites, and this modification regulates rRNA folding and assembly of ribosomes. 2{\textquoteright}O methylation of rRNA is partial on several sites in human embryonic stem cells, which results in ribosomes with differential methylation patterns. FMRP-snoRNA interaction affects rRNA methylation on several of these sites, and in the absence of FMRP, differential methylation pattern of rRNA is significantly altered. We found that FMRP recognizes ribosomes carrying specific methylation patterns on rRNA and the recognition of methylation pattern by FMRP may potentially determine the translation status of its target mRNAs. Thus, FMRP integrates its function in the nucleus and in the cytoplasm.

}, issn = {2589-0042}, doi = {10.1016/j.isci.2018.11.007}, author = {D{\textquoteright}Souza, Michelle Ninochka and Gowda, Naveen Kumar Chandappa and Tiwari, Vishal and Babu, Rosana Ottakandathil and Anand, Praveen and Dastidar, Sudhriti Ghosh and Singh, Randhir and James, Owen G and Selvaraj, Bhuvaneish and Pal, Rakhi and Ramesh, Arati and Chattarji, Sumantra and Chandran, Siddharthan and Gulyani, Akash and Palakodeti, Dasaradhi and Muddashetty, Ravi S} } @article {1152, title = {PAI1 mediates fibroblast-mast cell interactions in skin fibrosis.}, journal = {J Clin Invest}, volume = {128}, year = {2018}, month = {2018 May 01}, pages = {1807-1819}, abstract = {

Fibrosis is a prevalent pathological condition arising from the chronic activation of fibroblasts. This activation results from the extensive intercellular crosstalk mediated by both soluble factors and direct cell-cell connections. Prominent among these are the interactions of fibroblasts with immune cells, in which the fibroblast-mast cell connection, although acknowledged, is relatively unexplored. We have used a Tg mouse model of skin fibrosis, based on expression of the transcription factor Snail in the epidermis, to probe the mechanisms regulating mast cell activity and the contribution of these cells to this pathology. We have discovered that Snail-expressing keratinocytes secrete plasminogen activator inhibitor type 1 (PAI1), which functions as a chemotactic factor to increase mast cell infiltration into the skin. Moreover, we have determined that PAI1 upregulates intercellular adhesion molecule type 1 (ICAM1) expression on dermal fibroblasts, rendering them competent to bind to mast cells. This heterotypic cell-cell adhesion, also observed in the skin fibrotic disorder scleroderma, culminates in the reciprocal activation of both mast cells and fibroblasts, leading to the cascade of events that promote fibrogenesis. Thus, we have identified roles for PAI1 in the multifactorial program of fibrogenesis that expand its functional repertoire beyond its canonical role in plasmin-dependent processes.

}, issn = {1558-8238}, doi = {10.1172/JCI99088}, author = {Pincha, Neha and Hajam, Edries Yousaf and Badarinath, Krithika and Batta, Surya Prakash Rao and Masudi, Tafheem and Dey, Rakesh and Andreasen, Peter and Kawakami, Toshiaki and Samuel, Rekha and George, Renu and Danda, Debashish and Jacob, Paul Mazhuvanchary and Jamora, Colin} } @article {1590, title = {Repeated social stress leads to contrasting patterns of structural plasticity in the amygdala and hippocampus.}, journal = {Behav Brain Res}, volume = {347}, year = {2018}, month = {2018 07 16}, pages = {314-324}, abstract = {

Previous studies have demonstrated that repeated immobilization and restraint stress cause contrasting patterns of dendritic reorganization as well as alterations in spine density in amygdalar and hippocampal neurons. Whether social and ethologically relevant stressors can induce similar patterns of morphological plasticity remains largely unexplored. Hence, we assessed the effects of repeated social defeat stress on neuronal morphology in basolateral amygdala (BLA), hippocampal CA1 and infralimbic medial prefrontal cortex (mPFC). Male Wistar rats experienced social defeat stress on 5 consecutive days during confrontation in the resident-intruder paradigm with larger and aggressive Wild-type Groningen rats. This resulted in clear social avoidance behavior one day after the last confrontation. To assess the morphological consequences of repeated social defeat, 2 weeks after the last defeat, animals were sacrificed and brains were stained using a Golgi-Cox procedure. Morphometric analyses revealed that, compared to controls, defeated Wistar rats showed apical dendritic decrease in spine density on CA1 but not BLA. Sholl analysis demonstrated a significant dendritic atrophy of CA1 basal dendrites in defeated animals. In contrast, basal dendrites of BLA pyramidal neurons exhibited enhanced dendritic arborization in defeated animals. Social stress failed to induce lasting structural changes in mPFC neurons. Our findings demonstrate for the first time that social defeat stress elicits divergent patterns of structural plasticity in the hippocampus versus amygdala, similar to what has previously been reported with repeated physical stressors. Therefore, brain region specific variations may be a universal feature of stress-induced plasticity that is shared by both physical and social stressors.

}, keywords = {Amygdala, Animals, Atrophy, Avoidance Learning, CA1 Region, Hippocampal, Dendritic Spines, Dominance-Subordination, Male, Neuronal Plasticity, Prefrontal Cortex, Pyramidal Cells, Rats, Wistar, Stress, Psychological}, issn = {1872-7549}, doi = {10.1016/j.bbr.2018.03.034}, author = {Patel, D and Anilkumar, S and Chattarji, S and Buwalda, B} } @article {1151, title = {Rudhira/BCAS3 is essential for mouse development and cardiovascular patterning.}, journal = {Sci Rep}, volume = {8}, year = {2018}, month = {2018 Apr 04}, pages = {5632}, abstract = {

Rudhira/Breast Carcinoma Amplified Sequence 3 (BCAS3) is a cytoskeletal protein that promotes directional cell migration and angiogenesis in vitro and is implicated in human carcinomas and coronary artery disease. To study the role of Rudhira during development in vivo, we generated the first knockout mouse for rudhira and show that Rudhira is essential for mouse development. Rudhira null embryos die at embryonic day (E) 9.5 accompanied by severe vascular patterning defects in embryonic and extra-embryonic tissues. To identify the molecular processes downstream of rudhira, we analyzed the transcriptome of intact knockout yolk sacs. Genome-wide transcriptome analysis showed that Rudhira functions in angiogenesis and its related processes such as cell adhesion, extracellular matrix organization, peptidase activity and TGFβ signaling. Since Rudhira is also expressed in endothelial cells\ (ECs), we further generated Tie2Cre-mediated endothelial knockout (CKO) of rudhira. CKO embryos survive to E11.5 and similar to the global knockout, display gross vascular patterning defects, showing that endothelial Rudhira is vital for development. Further, Rudhira knockdown ECs in culture fail to sprout in a spheroid-sprouting assay, strongly supporting its role in vascular patterning. Our study identifies an essential role for Rudhira in blood vessel remodeling and provides a mouse model for cardiovascular development.

}, issn = {2045-2322}, doi = {10.1038/s41598-018-24014-w}, author = {Shetty, Ronak and Joshi, Divyesh and Jain, Mamta and Vasudevan, Madavan and Paul, Jasper Chrysolite and Bhat, Ganesh and Banerjee, Poulomi and Abe, Takaya and Kiyonari, Hiroshi and VijayRaghavan, K and Inamdar, Maneesha S} } @article {1588, title = {The Sodium Sialic Acid Symporter From Has Altered Substrate Specificity.}, journal = {Front Chem}, volume = {6}, year = {2018}, month = {2018}, pages = {233}, abstract = {

Mammalian cell surfaces are decorated with complex glycoconjugates that terminate with negatively charged sialic acids. Commensal and pathogenic bacteria can use host-derived sialic acids for a competitive advantage, but require a functional sialic acid transporter to import the sugar into the cell. This work investigates the sodium sialic acid symporter (SiaT) from (SiaT). We demonstrate that SiaT rescues an strain lacking its endogenous sialic acid transporter when grown on the sialic acids -acetylneuraminic acid (Neu5Ac) or -glycolylneuraminic acid (Neu5Gc). We then develop an expression, purification and detergent solubilization system for SiaT and demonstrate that the protein is largely monodisperse in solution with a stable monomeric oligomeric state. Binding studies reveal that SiaT has a higher affinity for Neu5Gc over Neu5Ac, which was unexpected and is not seen in another SiaT homolog. We develop a homology model and use comparative sequence analyses to identify substitutions in the substrate-binding site of SiaT that may explain the altered specificity. SiaT is shown to be electrogenic, and transport is dependent upon more than one Na ion for every sialic acid molecule. A functional sialic acid transporter is essential for the uptake and utilization of sialic acid in a range of pathogenic bacteria, and developing new inhibitors that target these transporters is a valid mechanism for inhibiting bacterial growth. By demonstrating a route to functional recombinant SiaT, and developing the and assay systems, our work underpins the design of inhibitors to this transporter.

}, issn = {2296-2646}, doi = {10.3389/fchem.2018.00233}, author = {North, Rachel A and Wahlgren, Weixiao Y and Remus, Daniela M and Scalise, Mariafrancesca and Kessans, Sarah A and Dunevall, Elin and Claesson, Elin and Soares da Costa, Tatiana P and Perugini, Matthew A and Ramaswamy, S and Allison, Jane R and Indiveri, Cesare and Friemann, Rosmarie and Dobson, Renwick C J} } @article {1599, title = {A strategy to identify a ketoreductase that preferentially synthesizes pharmaceutically relevant (S)-alcohols using whole-cell biotransformation.}, journal = {Microb Cell Fact}, volume = {17}, year = {2018}, month = {2018 Dec 03}, pages = {192}, abstract = {

INTRODUCTION: Chemical industries are constantly in search of an expeditious and environmentally benign method for producing chiral synthons. Ketoreductases have been used as catalysts for enantioselective conversion of desired prochiral ketones to their corresponding alcohol. We chose reported promiscuous ketoreductases belonging to different protein families and expressed them in E.\ coli to evaluate their ability as whole-cell catalysts for obtaining chiral alcohol intermediates of pharmaceutical importance. Apart from establishing a method to produce high value (S)-specific alcohols that have not been evaluated before, we propose an in silico analysis procedure\ to predict product chirality.

RESULTS: Six enzymes originating from Sulfolobus\ sulfotaricus, Zygosaccharomyces\ rouxii, Hansenula\ polymorpha, Corynebacterium sp. ST-10, Synechococcus sp. PCC\ 7942 and Bacillus sp. ECU0013 with reported efficient activity for dissimilar substrates are compared here to arrive at an optimal enzyme for the method. Whole-cell catalysis of ketone intermediates for drugs like Aprepitant, Sitagliptin and Dolastatin using E.\ coli over-expressing these enzymes yielded (S)-specific chiral alcohols. We explain this chiral specificity for the best-performing enzyme, i.e., Z.\ rouxii ketoreductase using in silico modelling and MD simulations. This rationale was applied to five additional ketones that are used in the synthesis of Crizotinib, MA-20565\ (an antifungal agent), Sulopenem, Rivastigmine, Talampanel and Barnidipine and predicted the yield of (S) enantiomers. Experimental evaluation matched the in silico analysis wherein ~ 95\% (S)-specific alcohol with a chemical yield of 23-79\% was obtained through biotransformation. Further, the cofactor re-cycling was optimized by switching the carbon source from glucose to sorbitol that improved the chemical yield to 85-99\%.

CONCLUSIONS: Here, we present a strategy to synthesize pharmaceutically relevant chiral alcohols by ketoreductases using a cofactor balanced whole-cell catalysis scheme that is useful for the industry. Based on the results obtained in these trials, Zygosaccharomyces\ rouxii ketoreductase was identified as a proficient enzyme to obtain (S)-specific alcohols from their respective ketones. The whole-cell catalyst when combined with nutrient modulation of using sorbitol as a carbon source helped obtain high enantiomeric and chemical yield.

}, keywords = {Biotransformation, Catalysis, Ethanol, Ketones}, issn = {1475-2859}, doi = {10.1186/s12934-018-1036-2}, author = {Haq, Saiful F and Shanbhag, Anirudh P and Karthikeyan, Subbulakshmi and Hassan, Imran and Thanukrishnan, Kannan and Ashok, Abhishek and Sukumaran, Sunilkumar and Ramaswamy, S and Bharatham, Nagakumar and Datta, Santanu and Samant, Shalaka and Katagihallimath, Nainesh} } @article {1147, title = {Substrate-bound outward-open structure of a Na-coupled sialic acid symporter reveals a new Na site.}, journal = {Nat Commun}, volume = {9}, year = {2018}, month = {2018 May 01}, pages = {1753}, abstract = {

Many pathogenic bacteria utilise sialic acids as an energy source or use them as an external coating to evade immune detection. As such, bacteria that colonise sialylated environments deploy specific transporters to mediate import of scavenged sialic acids. Here, we report a substrate-bound 1.95 {\r A} resolution structure and subsequent characterisation of SiaT, a sialic acid transporter from Proteus mirabilis. SiaT is a secondary active transporter of the sodium solute symporter (SSS) family, which use Na gradients to drive the uptake of extracellular substrates. SiaT adopts the LeuT-fold and is in an outward-open conformation in complex with the sialic acid N-acetylneuraminic acid and two Na ions. One Na binds to the conserved Na2 site, while the second Na binds to a new position, termed Na3, which is conserved in many SSS family members. Functional and molecular dynamics studies validate the substrate-binding site and demonstrate that both Na sites regulate N-acetylneuraminic acid transport.

}, issn = {2041-1723}, doi = {10.1038/s41467-018-04045-7}, author = {Wahlgren, Weixiao Y and Dunevall, Elin and North, Rachel A and Paz, Aviv and Scalise, Mariafrancesca and Bisignano, Paola and Bengtsson-Palme, Johan and Goyal, Parveen and Claesson, Elin and Caing-Carlsson, Rhawnie and Andersson, Rebecka and Beis, Konstantinos and Nilsson, Ulf J and Farewell, Anne and Pochini, Lorena and Indiveri, Cesare and Grabe, Michael and Dobson, Renwick C J and Abramson, Jeff and Ramaswamy, S and Friemann, Rosmarie} } @article {1146, title = {Towards an arthritis flare-responsive drug delivery system.}, journal = {Nat Commun}, volume = {9}, year = {2018}, month = {2018 Apr 03}, pages = {1275}, abstract = {

Local delivery of therapeutics for the treatment of inflammatory arthritis (IA) is limited by short intra-articular half-lives. Since IA severity often fluctuates over time, a local drug delivery method that titrates drug release to arthritis activity would represent an attractive paradigm in IA therapy. Here we report the development of a hydrogel platform that exhibits disassembly and drug release controlled by the concentration of enzymes expressed during arthritis flares. In vitro, hydrogel loaded with triamcinolone acetonide (TA) releases drug on-demand upon exposure to enzymes or synovial fluid from patients with rheumatoid arthritis. In arthritic mice, hydrogel loaded with a fluorescent dye demonstrates flare-dependent disassembly measured as loss of fluorescence. Moreover, a single dose of TA-loaded hydrogel but not the equivalent dose of locally injected free TA reduces arthritis activity in the injected paw. Together, our data suggest flare-responsive hydrogel as a promising next-generation drug delivery approach for the treatment of IA.

}, issn = {2041-1723}, doi = {10.1038/s41467-018-03691-1}, author = {Joshi, Nitin and Yan, Jing and Levy, Seth and Bhagchandani, Sachin and Slaughter, Kai V and Sherman, Nicholas E and Amirault, Julian and Wang, Yufeng and Riegel, Logan and He, Xueyin and Rui, Tan Shi and Valic, Michael and Vemula, Praveen K and Miranda, Oscar R and Levy, Oren and Gravallese, Ellen M and Aliprantis, Antonios O and Ermann, Joerg and Karp, Jeffrey M} } @article {1591, title = {The transcription factor Lef1 switches partners from β-catenin to Smad3 during muscle stem cell quiescence.}, journal = {Sci Signal}, volume = {11}, year = {2018}, month = {2018 Jul 24}, abstract = {

Skeletal muscle stem cells (MuSCs), also known as satellite cells, persist in adult mammals by entering a state of quiescence (G) during the early postnatal period. Quiescence is reversed during damage-induced regeneration and re-established after regeneration. Entry of cultured myoblasts into G is associated with a specific, reversible induction of Wnt target genes, thus implicating members of the Tcf and Lef1 (Tcf/Lef) transcription factor family, which mediate transcriptional responses to Wnt signaling, in the initiation of quiescence. We found that the canonical Wnt effector β-catenin, which cooperates with Tcf/Lef, was dispensable for myoblasts to enter quiescence. Using pharmacological and genetic approaches in cultured C2C12 myoblasts and in MuSCs, we demonstrated that Tcf/Lef activity during quiescence depended not on β-catenin but on the transforming growth factor-β (TGF-β) effector and transcriptional coactivator Smad3, which colocalized with Lef1 at canonical Wnt-responsive elements and directly interacted with Lef1 specifically in G Depletion of Smad3, but not β-catenin, reduced Lef1 occupancy at target promoters, Tcf/Lef target gene expression, and self-renewal of myoblasts. In vivo, MuSCs underwent a switch from β-catenin-Lef1 to Smad3-Lef1 interactions during the postnatal switch from proliferation to quiescence, with β-catenin-Lef1 interactions recurring during damage-induced reactivation. Our findings suggest that the interplay of Wnt-Tcf/Lef and TGF-β-Smad3 signaling activates canonical Wnt target promoters in a manner that depends on β-catenin during myoblast proliferation but is independent of β-catenin during MuSC quiescence.

}, issn = {1937-9145}, doi = {10.1126/scisignal.aan3000}, author = {Aloysius, Ajoy and DasGupta, Ramanuj and Dhawan, Jyotsna} } @article {1191, title = {Tunable Emission from Fluorescent Organic Nanoparticles in Water: Insight into the Nature of Self-Assembly and Photoswitching}, journal = {Chemistry {\textendash} A European Journal}, volume = {24}, year = {2018}, pages = {2643-2652}, abstract = {

Abstract Excitation-dependent tuning of the emission behavior of fluorescent organic nanoparticles (FONs) with two simple luminescent pyrenyl{\textendash}pyridyl conjugates as model systems is demonstrated. In the case of the compound with a flexible bis-picolyl moiety, the simultaneous presence of multiple ground-state species with distinct absorption and emission characteristics can be observed. The relative ratios of these species can easily be modulated, and it is possible to selectively stimulate any one of them individually by choosing an appropriate excitation channel. Moreover, at high concentration, a drastic change in the nature of the self-assembly is observed, which shifts from donor{\textendash}acceptor-type self-assembly to exciplex-type self-agglomeration. On the contrary, the compound containing a rigid terpyridine unit has only a single ground state and shows no such tunable emission. However, it can exhibit multiple emission bands in water, whereby the positions of their emission maxima depend on the extent of aggregation-induced planarization of the probe molecules. Overall, this work demonstrates multimodal modulation of FON emission and a gives insight into how molecular order can translate into complete switching of nanoparticle self-assembly and photophysics.

}, keywords = {aggregation, Fluorescence, nanoparticles, self-assembly}, doi = {10.1002/chem.201704607}, url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/chem.201704607}, author = {Gulyani Akash and Dey Nilanjan and Bhattacharya Santanu} } @article {1158, title = {Co-expression of Tbx6 and Sox2 identifies a novel transient neuromesoderm progenitor cell state.}, journal = {Development}, volume = {144}, year = {2017}, month = {2017 12 15}, pages = {4522-4529}, abstract = {

Elongation of the body axis is a key aspect of body plan development. Bipotential neuromesoderm progenitors (NMPs) ensure axial growth of embryos by contributing both to the spinal cord and mesoderm. The current model for the mechanism controlling NMP deployment invokes Tbx6, a T-box factor, to drive mesoderm differentiation of NMPs. Here, we identify a new population of Tbx6 cells in a subdomain of the NMP niche in mouse embryos. Based on co-expression of a progenitor marker, Sox2, we identify this population as representing a transient cell state in the mesoderm-fated NMP lineage. Genetic lineage tracing confirms the presence of the NMP cell state. Furthermore, we report a novel aspect of the documented mutant phenotype, namely an increase from two to four ectopic neural tubes, corresponding to the switch in NMP niche, thus highlighting the importance of function in NMP fate decision. This study emphasizes the function of Tbx6 as a bistable switch that turns mesoderm fate {\textquoteright}on{\textquoteright} and progenitor state {\textquoteright}off{\textquoteright}, and thus has implications for the molecular mechanism driving NMP fate choice.

}, keywords = {Animals, Body Patterning, Cell Differentiation, Cell Lineage, Embryonic Stem Cells, Gene Expression Regulation, Developmental, Mesoderm, Mice, Mice, Transgenic, Neural Tube, SOXB1 Transcription Factors, Spinal Cord, Transcription Factors}, issn = {1477-9129}, doi = {10.1242/dev.153262}, author = {Javali, Alok and Misra, Aritra and Leonavicius, Karolis and Acharyya, Debalina and Vyas, Bhakti and Sambasivan, Ramkumar} } @article {1202, title = {Facile Synthesis of Highly Sensitive, Red-Emitting, Fluorogenic Dye for Microviscosity and Mitochondrial Imaging in Embryonic Stem Cells}, journal = {ChemistrySelect}, volume = {2}, year = {2017}, pages = {4609-4616}, abstract = {

Abstract Bright, sensitive fluorescent probes that respond to changes in the cellular microenvironment are extremely valuable for imaging cellular dynamics. We report a simple, one-step synthesis of a new hemicaynine (HC-1) dye as a sensitive, red-emitting (λmax-610 nm) fluorogenic probe for micro-viscosity and local order in diverse environments, including live cells. HC-1 responds to increasing micro-viscosity through changes in fluorescence intensity and lifetime, and is sensitive enough to report dynamic micellar self-assembly. While HC-1 shows properties of a molecular {\textquoteleft}rotor{\textquoteright}, time-dependent density functional theoretical analysis reveals that in HC-1, an inhibition of photo-isomerization in viscous environment is the likely cause of fluorescence enhancement. HC-1 localizes to mitochondria in live cells and responds to mitochondrial ordering through a significant increase in fluorescence. Strikingly, we show that HC-1 is also a sensitive probe for the spatial heterogeneity of mitochondrial organization in embryonic stem cells as well as dynamic remodeling of the mitochondria in early-differentiated cells.

}, keywords = {Embryonic Stem Cells, Live cell imaging, Microviscosity, Mitochondrial fluorescent probe, Photoisomerization}, doi = {10.1002/slct.201700463}, url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/slct.201700463}, author = {Raja Sufi O. and Sivaraman Gandhi and Mukherjee Ananya and Duraisamy Chellappa and Gulyani Akash} } @article {1211, title = {Mimicking Muscle Stem Cell Quiescence in Culture: Methods for Synchronization in Reversible Arrest.}, journal = {Methods Mol Biol}, volume = {1556}, year = {2017}, month = {2017}, pages = {283-302}, abstract = {

Growing evidence supports the view that in adult stem cells, the defining stem cell features of potency and self-renewal are associated with the quiescent state. Thus, uncovering the molecular logic of this reversibly arrested state underlies not only a fundamental understanding of adult tissue dynamics but also hopes for therapeutic regeneration and rejuvenation of damaged or aging tissue. A key question concerns how adult stem cells use quiescence to establish or reinforce the property of self-renewal. Since self-renewal is largely studied by assays that measure proliferation, the concept of self-renewal programs imposed during non-proliferating conditions is counterintuitive. However, there is increasing evidence generated by deconstructing the quiescent state that highlights how programs characteristic of this particular cell cycle exit may enhance stem cell capabilities, through both cell-intrinsic and extrinsic programs.Toward this end, culture models that recapitulate key aspects of stem cell quiescence are useful for molecular analysis to explore attributes and regulation of the quiescent state. In this chapter, we review the different methods used to generate homogeneous populations of quiescent muscle cells, largely by manipulating culture conditions that feed into core signaling programs that regulate the cell cycle. We also provide detailed protocols developed or refined in our lab over the past two decades.

}, keywords = {Actins, Adult Stem Cells, Animals, Biomarkers, Cell Culture Techniques, Cell Differentiation, Cell Line, Cell Proliferation, Fluorescent Antibody Technique, Humans, Mice, Microscopy, Fluorescence, Muscle, Skeletal, Myoblasts, Resting Phase, Cell Cycle, Satellite Cells, Skeletal Muscle, Stem Cells}, issn = {1940-6029}, doi = {10.1007/978-1-4939-6771-1_15}, author = {Arora, Reety and Rumman, Mohammed and Venugopal, Nisha and Gala, Hardik and Dhawan, Jyotsna} } @article {1199, title = {The miR-124 family of microRNAs is crucial for regeneration of the brain and visual system in the planarian Schmidtea mediterranea}, journal = {Development}, volume = {144}, year = {2017}, pages = {3211{\textendash}3223}, abstract = {

Brain regeneration in planarians is mediated by precise spatiotemporal control of gene expression and is crucial for multiple aspects of neurogenesis. However, the mechanisms underpinning the gene regulation essential for brain regeneration are largely unknown. Here, we investigated the role of the miR-124 family of microRNAs in planarian brain regeneration. The miR-124 family (miR-124) is highly conserved in animals and regulates neurogenesis by facilitating neural differentiation, yet its role in neural wiring and brain organization is not known. We developed a novel method for delivering anti-miRs using liposomes for the functional knockdown of microRNAs. Smed-miR-124 knockdown revealed a key role for these microRNAs in neuronal organization during planarian brain regeneration. Our results also demonstrated an essential role for miR-124 in the generation of eye progenitors. Additionally, miR-124 regulates Smed-slit-1, which encodes an axon guidance protein, either by targeting slit-1 mRNA or, potentially, by modulating the canonical Notch pathway. Together, our results reveal a role for miR-124 in regulating the regeneration of a functional brain and visual system.

}, issn = {0950-1991}, doi = {10.1242/dev.144758}, url = {http://dev.biologists.org/content/144/18/3211}, author = {Sasidharan, Vidyanand and Marepally, Srujan and Elliott, Sarah A. and Baid, Srishti and Lakshmanan, Vairavan and Nayyar, Nishtha and Bansal, Dhiru and S{\'a}nchez Alvarado, Alejandro and Vemula, Praveen Kumar and Palakodeti, Dasaradhi} } @article {1170, title = {Genome-Wide Analysis of Polyadenylation Events in Schmidtea mediterranea.}, journal = {G3 (Bethesda)}, volume = {6}, year = {2016}, month = {2016 10 13}, pages = {3035-3048}, abstract = {

In eukaryotes, 3{\textquoteright} untranslated regions (UTRs) play important roles in regulating posttranscriptional gene expression. The 3{\textquoteright}UTR is defined by regulated cleavage/polyadenylation of the pre-mRNA. The advent of next-generation sequencing technology has now enabled us to identify these events on a genome-wide scale. In this study, we used poly(A)-position profiling by sequencing (3P-Seq) to capture all poly(A) sites across the genome of the freshwater planarian, Schmidtea mediterranea, an ideal model system for exploring the process of regeneration and stem cell function. We identified the 3{\textquoteright}UTRs for \~{}14,000 transcripts and thus improved the existing gene annotations. We found 97 transcripts, which are polyadenylated within an internal exon, resulting in the shrinking of the ORF and loss of a predicted protein domain. Around 40\% of the transcripts in planaria were alternatively polyadenylated (ApA), resulting either in an altered 3{\textquoteright}UTR or a change in coding sequence. We identified specific ApA transcript isoforms that were subjected to miRNA mediated gene regulation using degradome sequencing. In this study, we also confirmed a tissue-specific expression pattern for alternate polyadenylated transcripts. The insights from this study highlight the potential role of ApA in regulating the gene expression essential for planarian regeneration.

}, keywords = {3{\textquoteright} Untranslated Regions, Animals, Computational Biology, Genome, Helminth, Genome-Wide Association Study, High-Throughput Nucleotide Sequencing, MicroRNAs, Molecular Sequence Annotation, Platyhelminths, Poly A, Polyadenylation, Reproducibility of Results, RNA Interference, RNA Processing, Post-Transcriptional, RNA, Messenger}, issn = {2160-1836}, doi = {10.1534/g3.116.031120}, author = {Lakshmanan, Vairavan and Bansal, Dhiru and Kulkarni, Jahnavi and Poduval, Deepak and Krishna, Srikar and Sasidharan, Vidyanand and Anand, Praveen and Seshasayee, Aswin and Palakodeti, Dasaradhi} } @article {1169, title = {In Situ Synthesis of Metal Nanoparticle Embedded Hybrid Soft Nanomaterials.}, journal = {Acc Chem Res}, volume = {49}, year = {2016}, month = {2016 Sep 20}, pages = {1671-80}, abstract = {

The allure of integrating the tunable properties of soft nanomaterials with the unique optical and electronic properties of metal nanoparticles has led to the development of organic-inorganic hybrid nanomaterials. A promising method for the synthesis of such organic-inorganic hybrid nanomaterials is afforded by the in situ generation of metal nanoparticles within a host organic template. Due to their tunable surface morphology and porosity, soft organic materials such as gels, liquid crystals, and polymers that are derived from various synthetic or natural compounds can act as templates for the synthesis of metal nanoparticles of different shapes and sizes. This method provides stabilization to the metal nanoparticles by the organic soft material and advantageously precludes the use of external reducing or capping agents in many instances. In this Account, we exemplify the green chemistry approach for synthesizing these materials, both in the choice of gelators as soft material frameworks and in the reduction mechanisms that generate the metal nanoparticles. Established herein is the core design principle centered on conceiving multifaceted amphiphilic soft materials that possess the ability to self-assemble and reduce metal ions into nanoparticles. Furthermore, these soft materials stabilize the in situ generated metal nanoparticles and retain their self-assembly ability to generate metal nanoparticle embedded homogeneous organic-inorganic hybrid materials. We discuss a remarkable example of vegetable-based drying oils as host templates for metal ions, resulting in the synthesis of novel hybrid nanomaterials. The synthesis of metal nanoparticles via polymers and self-assembled materials fabricated via cardanol (a bioorganic monomer derived from cashew nut shell liquid) are also explored in this Account. The organic-inorganic hybrid structures were characterized by several techniques such as UV-visible spectroscopy, scanning electron microscopy (SEM), and transmission electron microscopy (TEM). Utilization of silver nanoparticle-based hybrid nanomaterials as an antimicrobial material is another illustration of the advantage of hybrid nanomaterials. We envision that the results summarized in this Account will help the scientific community to design and develop diverse organic-inorganic hybrid materials using environmentally benign methods and that these materials will yield advanced properties that have multifaceted applications in various research fields.

}, issn = {1520-4898}, doi = {10.1021/acs.accounts.6b00201}, author = {Divya, Kizhmuri P and Miroshnikov, Mikhail and Dutta, Debjit and Vemula, Praveen Kumar and Ajayan, Pulickel M and John, George} } @article {1171, title = {Melatonin and Human Cardiovascular Disease.}, journal = {J Cardiovasc Pharmacol Ther}, year = {2016}, month = {2016 Jul 21}, abstract = {

The possible therapeutic role of melatonin in the pathophysiology of coronary artery disorder (CAD) is increasingly being recognized. In humans, exogenous melatonin has been shown to decrease nocturnal hypertension, improve systolic and diastolic blood pressure, reduce the pulsatility index in the internal carotid artery, decrease platelet aggregation, and reduce serum catecholamine levels. Low circulating levels of melatonin are reported in individuals with CAD, arterial hypertension, and congestive heart failure. This review assesses current literature on the cardiovascular effects of melatonin in humans. It can be concluded that melatonin deserves to be considered in clinical trials evaluating novel therapeutic interventions for cardiovascular disorders.

}, issn = {1940-4034}, doi = {10.1177/1074248416660622}, author = {Pandi-Perumal, Seithikurippu R and BaHammam, Ahmed S and Ojike, Nwakile I and Akinseye, Oluwaseun A and Kendzerska, Tetyana and Buttoo, Kenneth and Dhandapany, Perundurai S and Brown, Gregory M and Cardinali, Daniel P} } @article {1173, title = {Stochastic steps in secondary active sugar transport.}, journal = {Proc Natl Acad Sci U S A}, volume = {113}, year = {2016}, month = {2016 07 05}, pages = {E3960-6}, abstract = {

Secondary active transporters, such as those that adopt the leucine-transporter fold, are found in all domains of life, and they have the unique capability of harnessing the energy stored in ion gradients to accumulate small molecules essential for life as well as expel toxic and harmful compounds. How these proteins couple ion binding and transport to the concomitant flow of substrates is a fundamental structural and biophysical question that is beginning to be answered at the atomistic level with the advent of high-resolution structures of transporters in different structural states. Nonetheless, the dynamic character of the transporters, such as ion/substrate binding order and how binding triggers conformational change, is not revealed from static structures, yet it is critical to understanding their function. Here, we report a series of molecular simulations carried out on the sugar transporter vSGLT that lend insight into how substrate and ions are released from the inward-facing state of the transporter. Our simulations reveal that the order of release is stochastic. Functional experiments were designed to test this prediction on the human homolog, hSGLT1, and we also found that cytoplasmic release is not ordered, but we confirmed that substrate and ion binding from the extracellular space is ordered. Our findings unify conflicting published results concerning cytoplasmic release of ions and substrate and hint at the possibility that other transporters in the superfamily may lack coordination between ions and substrate in the inward-facing state.

}, keywords = {Glucose, HEK293 Cells, Humans, Markov Chains, Molecular Dynamics Simulation, Monte Carlo Method, Patch-Clamp Techniques, Sodium, Sodium-Glucose Transporter 1}, issn = {1091-6490}, doi = {10.1073/pnas.1525378113}, author = {Adelman, Joshua L and Ghezzi, Chiara and Bisignano, Paola and Loo, Donald D F and Choe, Seungho and Abramson, Jeff and Rosenberg, John M and Wright, Ernest M and Grabe, Michael} } @article {398, title = {Conserved hippocampal cellular pathophysiology but distinct behavioural deficits in a new rat model of FXS.}, journal = {Hum Mol Genet}, volume = {24}, year = {2015}, month = {2015 Nov 1}, pages = {5977-84}, abstract = {

Recent advances in techniques for manipulating genomes have allowed the generation of transgenic animals other than mice. These new models enable cross-mammalian comparison of neurological disease from core cellular pathophysiology to circuit and behavioural endophenotypes. Moreover they will enable us to directly test whether common cellular dysfunction or behavioural outcomes of a genetic mutation are more conserved across species. Using a new rat model of Fragile X Syndrome, we report that Fmr1 knockout (KO) rats exhibit elevated basal protein synthesis and an increase in mGluR-dependent long-term depression in CA1 of the hippocampus that is independent of new protein synthesis. These defects in plasticity are accompanied by an increase in dendritic spine density selectively in apical dendrites and subtle changes in dendritic spine morphology of CA1 pyramidal neurons. Behaviourally, Fmr1 KO rats show deficits in hippocampal-dependent, but not hippocampal-independent, forms of associative recognition memory indicating that the loss of fragile X mental retardation protein (FMRP) causes defects in episodic-like memory. In contrast to previous reports from mice, Fmr1 KO rats show no deficits in spatial reference memory reversal learning. One-trial spatial learning in a delayed matching to place water maze task was also not affected by the loss of FMRP in rats. This is the first evidence for conservation across mammalian species of cellular and physiological hippocampal phenotypes associated with the loss of FMRP. Furthermore, while key cellular phenotypes are conserved they manifest in distinct behavioural dysfunction. Finally, our data reveal novel information about the selective role of FMRP in hippocampus-dependent associative memory.

}, issn = {1460-2083}, doi = {10.1093/hmg/ddv299}, author = {Till, Sally M and Asiminas, Antonis and Jackson, Adam D and Katsanevaki, Danai and Barnes, Stephanie A and Osterweil, Emily K and Bear, Mark F and Chattarji, Sumantra and Wood, Emma R and Wyllie, David J A and Kind, Peter C} } @article {399, title = {Mechanistic heterogeneity in contractile properties of α-tropomyosin (TPM1) mutants associated with inherited cardiomyopathies.}, journal = {J Biol Chem}, volume = {290}, year = {2015}, month = {2015 Mar 13}, pages = {7003-15}, abstract = {

The most frequent known causes of primary cardiomyopathies are mutations in the genes encoding sarcomeric proteins. Among those are 30 single-residue mutations in TPM1, the gene encoding α-tropomyosin. We examined seven mutant tropomyosins, E62Q, D84N, I172T, L185R, S215L, D230N, and M281T, that were chosen based on their clinical severity and locations along the molecule. The goal of our study was to determine how the biochemical characteristics of each of these mutant proteins are altered, which in turn could provide a structural rationale for treatment of the cardiomyopathies they produce. Measurements of Ca(2+) sensitivity of human β-cardiac myosin ATPase activity are consistent with the hypothesis that hypertrophic cardiomyopathies are hypersensitive to Ca(2+) activation, and dilated cardiomyopathies are hyposensitive. We also report correlations between ATPase activity at maximum Ca(2+) concentrations and conformational changes in TnC measured using a fluorescent probe, which provide evidence that different substitutions perturb the structure of the regulatory complex in different ways. Moreover, we observed changes in protein stability and protein-protein interactions in these mutants. Our results suggest multiple mechanistic pathways to hypertrophic and dilated cardiomyopathies. Finally, we examined a computationally designed mutant, E181K, that is hypersensitive, confirming predictions derived from in silico structural analysis.

}, keywords = {Actins, Adenosine Triphosphatases, Calcium, Cardiomyopathies, Humans, Models, Molecular, Myosins, Point Mutation, Protein Stability, Tropomyosin}, issn = {1083-351X}, doi = {10.1074/jbc.M114.596676}, author = {Gupte, Tejas M and Haque, Farah and Gangadharan, Binnu and Sunitha, Margaret S and Mukherjee, Souhrid and Anandhan, Swetha and Rani, Deepa Selvi and Mukundan, Namita and Jambekar, Amruta and Thangaraj, Kumarasamy and Sowdhamini, Ramanathan and Sommese, Ruth F and Nag, Suman and Spudich, James A and Mercer, John A} }