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1. TRPA1 activation and Hsp90 inhibition synergistically downregulate macrophage activation and inflammatory responses in vitro

Author

Anukrishna Radhakrishnan, Tathagata Mukherjee, Chandan Mahish, P Sanjai Kumar, Chandan Goswami, and Subhasis Chattopadhyay

Subjects
Macrophages, Pro-inflammatory responses, TRPA1, 17-AAG, Apoptosis, Ca2+, Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background Transient receptor potential ankyrin 1 (TRPA1) channels are known to be actively involved in various pathophysiological conditions, including neuronal inflammation, neuropathic pain, and various immunological responses. Heat shock protein 90 (Hsp90), a cytoplasmic molecular chaperone, is well-reported for various cellular and physiological processes. Hsp90 inhibition by various molecules has garnered importance for its therapeutic significance in the downregulation of inflammation and are proposed as anti-cancer drugs. However, the possible role of TRPA1 in the Hsp90-associated modulation of immune responses remains scanty. Results Here, we have investigated the role of TRPA1 in regulating the anti-inflammatory effect of Hsp90 inhibition via 17-(allylamino)-17-demethoxygeldanamycin (17-AAG) in lipopolysaccharide (LPS) or phorbol 12-myristate 13-acetate (PMA) stimulation in RAW 264.7, a mouse macrophage cell lines and PMA differentiated THP-1, a human monocytic cell line similar to macrophages. Activation of TRPA1 with Allyl isothiocyanate (AITC) is observed to execute an anti-inflammatory role via augmenting Hsp90 inhibition-mediated anti-inflammatory responses towards LPS or PMA stimulation in macrophages, whereas inhibition of TRPA1 by 1,2,3,6-Tetrahydro-1,3-dimethyl-N-[4-(1-methylethyl)phenyl]-2,6-dioxo-7 H-purine-7-acetamide,2-(1,3-Dimethyl-2,6-dioxo-1,2,3,6-tetrahydro-7 H-purin-7-yl)-N-(4-isopropylphenyl)acetamide (HC-030031) downregulates these developments. LPS or PMA-induced macrophage activation was found to be regulated by TRPA1. The same was confirmed by studying the levels of activation markers (major histocompatibility complex II (MHCII), cluster of differentiation (CD) 80 (CD80), and CD86, pro-inflammatory cytokines (tumor necrosis factor (TNF) and interleukin 6 (IL-6)), NO (nitric oxide) production, differential expression of mitogen-activated protein kinase (MAPK) signaling pathways (p-p38 MAPK, phospho-extracellular signal-regulated kinase 1/2 (p-ERK 1/2), and phosphor-stress-activated protein kinase/c-Jun N-terminal kinase (p-SAPK/JNK)), and induction of apoptosis. Additionally, TRPA1 has been found to be an important contributor to intracellular calcium levels toward Hsp90 inhibition in LPS or PMA-stimulated macrophages. Conclusion This study indicates a significant role of TRPA1 in Hsp90 inhibition-mediated anti-inflammatory developments in LPS or PMA-stimulated macrophages. Activation of TRPA1 and inhibition of Hsp90 has synergistic roles towards regulating inflammatory responses associated with macrophages. The role of TRPA1 in Hsp90 inhibition-mediated modulation of macrophage responses may provide insights towards designing future novel therapeutic approaches to regulate various inflammatory responses.

Published
2023
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2. TRPV4 regulates osteoblast differentiation and mitochondrial function that are relevant for channelopathy

Author

Tusar Kanta Acharya, Subhashis Pal, Arijit Ghosh, Shamit Kumar, Satish Kumar, Naibedya Chattopadhyay, and Chandan Goswami

Subjects
mitochondria, channelopathy, bone, genetic disorder, bio-mineralization, Biology (General), QH301-705.5
Abstract

Different ion channels present in the osteoblast regulate the cellular functions including bio-mineralization, a process that is a highly stochastic event. Cellular events and molecular signaling involved in such process is poorly understood. Here we demonstrate that TRPV4, a mechanosensitive ion channel is endogenously present in an osteoblast cell line (MC3T3-E1) and in primary osteoblasts. Pharmacological activation of TRPV4 enhanced intracellular Ca2+-level, expression of osteoblast-specific genes and caused increased bio-mineralization. TRPV4 activation also affects mitochondrial Ca2+-levels and mitochondrial metabolisms. We further demonstrate that different point mutants of TRPV4 induce different mitochondrial morphology and have different levels of mitochondrial translocation, collectively suggesting that TRPV4-mutation-induced bone disorders and other channelopathies are mostly due to mitochondrial abnormalities. These findings may have broad biomedical implications.

Published
2023
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4. TRPV1 channel in spermatozoa is a molecular target for ROS-mediated sperm dysfunction and differentially expressed in both natural and ART pregnancy failure

Author

Nirlipta Swain, Luna Samanta, Chandan Goswami, Sujata Kar, Rakesh Kumar Majhi, Sugandh Kumar, and Anshuman Dixit

Subjects
TRPV1, oxidative stress, unilateral varicocele, IVF, ICSI, calcium, Biology (General), QH301-705.5
Abstract

Bi-directional crosstalk between Ca2+ signaling and ROS modulates physiological processes as a part of a regulatory circuit including sperm function. The role of transient receptor potential vanilloid 1 (TRPV1) in this regard cannot be undermined. This is the first report demonstrating the Ca2+-sensitive TRPV1 channel to be under-expressed in spermatozoa of subfertile men, idiopathic infertile men, and normozoospermic infertile males with high ROS (idiopathic infertility and unilateral varicocele). To study the effect of TRPV1 in determining the fertility outcome, we compared the expression profile of TRPV1 in spermatozoa of male partners who achieved pregnancy by natural conception (NC+, n = 10), IVF (IVF+, n = 23), or ICSI (ICSI +, n = 9) and their respective counterparts with failed pregnancy NC (n = 7), IVF (n = 23), or ICSI (n = 10), by both immunocytochemistry and flow-cytometry. Reduced expression of TRPV1 in sperm of IVF ± and ICSI ± men with respect to that NC+ men imply its role in mediating successful fertilization. Unsuccessful pregnancy outcome with an underexpression of TRPV1 in sperm of NC-/IVF-/ICSI-men suggests its role in conception and maintenance of pregnancy. Since ROS is regarded as one of the major contributors to sperm dysfunction, the effect of H2O2 +/- TRPV1 modulators (RTX/iRTX) on acrosomal reaction and calcium influx was evaluated to confirm TRPV1 as a redox sensor in human sperm. A significant increment in the percentage of acrosome reacted spermatozoa along with augmented Ca2+-influx was observed after H2O2 treatment, both in the presence or absence of TRPV1 agonist resiniferatoxin (RTX). The effect was attenuated by the TRPV1 antagonist iodoresiniferatoxin (iRTX), indicating the involvement of TRPV1 in mediating H2O2 response. Enhancement of motility and triggering of acrosomal reaction post TRPV1 activation suggested that disruption of these signaling cascades in vivo, possibly due to down-regulation of TRPV1 in these subfertile males. Bioinformatic analysis of the crosstalk between TRPV1 with fertility candidate proteins (reported to influence IVF outcome) revealed cell death and survival, cellular compromise, and embryonic development to be the primary networks affected by anomalous TRPV1 expression. We therefore postulate that TRPV1 can act as a redox sensor, and its expression in spermatozoa may serve as a fertility marker.

Published
2022
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5. TRPM8 channel inhibitor-encapsulated hydrogel as a tunable surface for bone tissue engineering

Author

Tusar Kanta Acharya, Satish Kumar, Nikhil Tiwari, Arijit Ghosh, Ankit Tiwari, Subhashis Pal, Rakesh Kumar Majhi, Ashutosh Kumar, Rashmita Das, Abhishek Singh, Pradip K. Maji, Naibedya Chattopadhyay, Luna Goswami, and Chandan Goswami

Subjects
Medicine, Science
Abstract

Abstract A major limitation in the bio-medical sector is the availability of materials suitable for bone tissue engineering using stem cells and methodology converting the stochastic biological events towards definitive as well as efficient bio-mineralization. We show that osteoblasts and Bone Marrow-derived Mesenchymal Stem Cell Pools (BM-MSCP) express TRPM8, a Ca2+-ion channel critical for bone-mineralization. TRPM8 inhibition triggers up-regulation of key osteogenesis factors; and increases mineralization by osteoblasts. We utilized CMT:HEMA, a carbohydrate polymer-based hydrogel that has nanofiber-like structure suitable for optimum delivery of TRPM8-specific activators or inhibitors. This hydrogel is ideal for proper adhesion, growth, and differentiation of osteoblast cell lines, primary osteoblasts, and BM-MSCP. CMT:HEMA coated with AMTB (TRPM8 inhibitor) induces differentiation of BM-MSCP into osteoblasts and subsequent mineralization in a dose-dependent manner. Prolonged and optimum inhibition of TRPM8 by AMTB released from the gels results in upregulation of osteogenic markers. We propose that AMTB-coated CMT:HEMA can be used as a tunable surface for bone tissue engineering. These findings may have broad implications in different bio-medical sectors.

Published
2021
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6. TLR9 Polymorphisms Might Contribute to the Ethnicity Bias for EBV-Infected Nasopharyngeal Carcinoma

Author

Nabanita Roy Chattopadhyay, Koustav Chatterjee, Nikhil Tiwari, Sudipta Chakrabarti, Sushil Kumar Sahu, Sankar Deb Roy, Arijit Ghosh, R. Rajendra Reddy, Piyanki Das, Sudipa Mal, Basab Bijay Karnar, Ashok Kumar Das, Sam Tsering, Komri Riba, Zoreng puii, Eric Zomawia, Y. Indibar Singh, Amol Ratnakar Suryawanshi, Abhishek Kumar, Dipyaman Ganguly, Chandan Goswami, and Tathagata Choudhuri

Subjects
Science
Abstract

Summary: Nasopharyngeal carcinoma (NPC) is a rare malignancy in most parts of the world, but is endemic in some ethnic groups. The association of NPC with the Epstein-Barr virus (EBV) is firmly established; however, the mechanism is still unclear. TLR9 is well known for its essential role in viral pathogen recognition and activation of innate immunity. Here, we report a set of TLR9 polymorphisms in the TIR-2 domain of the TLR9 protein collected from the EBV-infected NPC samples from northeast Indian populations sharing the aforesaid ethnicity. The occurrence of mutations is significantly high in these samples as we found a p value of

Published
2020
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7. Antibacterial Efficacy of Polysaccharide Capped Silver Nanoparticles Is Not Compromised by AcrAB-TolC Efflux Pump

Author

Mitali Mishra, Satish Kumar, Rakesh K. Majhi, Luna Goswami, Chandan Goswami, and Harapriya Mohapatra

Subjects
nanoparticles, efflux pump, AcrAB-TolC, Enterobacter cloacae, antibiotic resistance, Microbiology, QR1-502
Abstract

Antibacterial therapy is of paramount importance in treatment of several acute and chronic infectious diseases caused by pathogens. Over the years extensive use and misuse of antimicrobial agents has led to emergence of multidrug resistant (MDR) and extensive drug resistant (XDR) pathogens. This drastic escalation in resistant phenotype has limited the efficacy of available therapeutic options. Thus, the need of the hour is to look for alternative therapeutic approaches to mitigate healthcare concerns caused due to MDR bacterial infections. Nanoparticles have gathered much attention as potential candidates for antibacterial therapy. Equipped with advantages of, wide spectrum bactericidal activity at very low dosage, inhibitor of biofilm formation and ease of permeability, nanoparticles have been considered as leading therapeutic candidates to curtail infections resulting from MDR bacteria. However, substrate non-specificity of efflux pumps, particularly those belonging to resistance nodulation division super family, have been reported to reduce efficacy of many potent antibacterial therapeutic drugs. Previously, we had reported antibacterial activity of polysaccharide-capped silver nanoparticles (AgNPs) toward MDR bacteria. We showed that AgNPs inhibits biofilm formation and alters expression of cytoskeletal proteins FtsZ and FtsA, with minimal cytotoxicity toward mammalian cells. In the present study, we report no reduction in antibacterial efficacy of silver nanoparticles in presence of AcrAB-TolC efflux pump proteins. Antibacterial tests were performed according to CLSI macrobroth dilution method, which revealed that both silver nanoparticles exhibited bactericidal activity at very low concentrations. Further, immunoblotting results indicated that both the nanoparticles modulate the transporter AcrB protein expression. However, expression of the membrane fusion protein AcrA did show a significant increase after exposure to AgNPs. Our results indicate that both silver nanoparticles are effective in eliminating MDR Enterobacter cloacae isolates and their action was not inhibited by AcrAB-TolC efflux protein expression. As such, the above nanoparticles have strong potential to be used as effective and alternate therapeutic candidates to combat MDR gram-negative Enterobacterial pathogens.

Published
2018
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8. Structural and functional regulation of growth cone, filopodia and synaptic sites by TRPV1

Author

Chandan Goswami

Subjects
Biology (General), QH301-705.5
Abstract

Specialized neuronal structures namely growth cones, filopodia and spines are important entities by which neurons communicate with each other, integrate multiple signaling events, consolidate interacting structures and exchange synaptic information. Recent studies confirmed that Transient Receptor Potential Vanilloid sub type 1 (TRPV1), alternatively known as capsaicin receptor forms a signaling complex at the plasma membrane and integrate multiple exogenous and endogenous signaling cues there. This receptor localizes in the neuronal growth cones and also in filopodial tips. In addition, TRPV1 is endogenously present in synaptic structures and located both in pre- and post-synaptic spines of cortical neurons. Being non-selective Ca2+-channel, TRPV1 regulates the morphology and the functions of these structures by various mechanisms. Our studies indicated that physical interaction with signaling and structural molecules, modulation of different cytoskeleton, synaptic scaffolding structures and vesicle recycling by Ca2+-dependent and -independent events are the key mechanisms by which TRPV1 regulates growth cone, filopodia and spines in a co-ordinated manner. TRPV1 not only regulates the morphology, but also regulates the functions of these entities. Thus TRPV1 is important not only for the detection of noxious stimuli and transmission of pain signaling, but also are for the neuronal communications and network formation.

Published
2010
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9. Expression of temperature-sensitive ion channel TRPM8 in sperm cells correlates with vertebrate evolution

Author

Rakesh Kumar Majhi, Somdatta Saha, Ashutosh Kumar, Arijit Ghosh, Nirlipta Swain, Luna Goswami, Pratyush Mohapatra, Apratim Maity, Vivek Kumar Sahoo, Abhishek Kumar, and Chandan Goswami

Subjects
Sperm cells, TRP ion channel, Cold-sensitivity, Molecular evolution, Ca2+-signaling, Vertebrate evolution, Medicine, Biology (General), QH301-705.5
Abstract

Transient Receptor Potential cation channel, subfamily Melastatin, member 8 (TRPM8) is involved in detection of cold temperature, different noxious compounds and in execution of thermo- as well as chemo-sensitive responses at cellular levels. Here we explored the molecular evolution of TRPM8 by analyzing sequences from various species. We elucidate that several regions of TRPM8 had different levels of selection pressure but the 4th–5th transmembrane regions remain highly conserved. Analysis of synteny suggests that since vertebrate origin, TRPM8 gene is linked with SPP2, a bone morphogen. TRPM8, especially the N-terminal region of it, seems to be highly variable in human population. We found 16,656 TRPM8 variants in 1092 human genomes with top variations being SNPs, insertions and deletions. A total of 692 missense mutations are also mapped to human TRPM8 protein of which 509 seem to be delateroiours in nature as supported by Polyphen V2, SIFT and Grantham deviation score. Using a highly specific antibody, we demonstrate that TRPM8 is expressed endogenously in the testis of rat and sperm cells of different vertebrates ranging from fish to higher mammals. We hypothesize that TRPM8 had emerged during vertebrate evolution (ca 450 MYA). We propose that expression of TRPM8 in sperm cell and its role in regulating sperm function are important factors that have guided its molecular evolution, and that these understandings may have medical importance.

Published
2015
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10. Induction of apoptosis by Fe(salen)Cl through caspase-dependent pathway specifically in tumor cells

Author

Nitika Pradhan, B.M. Pratheek, Antara Garai, Ashutosh Kumar, Vikram S Meena, Shyamasree Ghosh, Sujay Singh, Shikha Kumari, T.K. Chandrashekar, Chandan Goswami, Subhasis Chattopadhyay, Sanjib Kar, and Prasanta K. Maiti

Subjects
Biotechnology, TP248.13-248.65
Abstract

Iron-based compounds possess the capability of inducing cell death due to their reactivity with oxidant molecules, but their specificity towards cancer cells and the mechanism of action are hitherto less investigated. A Fe(salen)Cl derivative has been synthesized that remains active in monomer form. The efficacy of this compound as an anti-tumor agent has been investigated in mouse and human leukemia cell lines. Fe(salen)Cl induces cell death specifically in tumor cells and not in primary cells. Mouse and human T-cell leukemia cell lines, EL4 and Jurkat cells are found to be susceptible to Fe(salen)Cl and undergo apoptosis, but normal mouse spleen cells and human peripheral blood mononuclear cells (PBMC) remain largely unaffected by Fe(salen)Cl. Fe(salen)Cl treated tumor cells show significantly higher expression level of cytochrome c that might have triggered the cascade of reactions leading to apoptosis in cancer cells. A significant loss of mitochondrial membrane potential upon Fe(salen)Cl treatment suggests that Fe(salen)Cl induces apoptosis by disrupting mitochondrial membrane potential and homeostasis, leading to cytotoxity. We also established that apoptosis in the Fe(salen)Cl-treated tumor cells is mediated through caspase-dependent pathway. This is the first report demonstrating that Fe(salen)Cl can specifically target the tumor cells, leaving the primary cells least affected, indicating an excellent potential for this compound to emerge as a next-generation anti-tumor drug.

Published
2017
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11. Kaposi sarcoma herpes virus latency associated nuclear antigen protein release the G2/M cell cycle blocks by modulating ATM/ATR mediated checkpoint pathway.

Author

Amit Kumar, Sushil Kumar Sahu, Suchitra Mohanty, Sudipta Chakrabarti, Santanu Maji, R Rajendra Reddy, Asutosh K Jha, Chandan Goswami, Chanakya N Kundu, Shanmugam Rajasubramaniam, Subhash C Verma, and Tathagata Choudhuri

Subjects
Medicine, Science
Abstract

The Kaposi's sarcoma-associated herpesvirus infects the human population and maintains latency stage of viral life cycle in a variety of cell types including cells of epithelial, mesenchymal and endothelial origin. The establishment of latent infection by KSHV requires the expression of an unique repertoire of genes among which latency associated nuclear antigen (LANA) plays a critical role in the replication of the viral genome. LANA regulates the transcription of a number of viral and cellular genes essential for the survival of the virus in the host cell. The present study demonstrates the disruption of the host G2/M cell cycle checkpoint regulation as an associated function of LANA. DNA profile of LANA expressing human B-cells demonstrated the ability of this nuclear antigen in relieving the drug (Nocodazole) induced G2/M checkpoint arrest. Caffeine suppressed nocodazole induced G2/M arrest indicating involvement of the ATM/ATR. Notably, we have also shown the direct interaction of LANA with Chk2, the ATM/ATR signalling effector and is responsible for the release of the G2/M cell cycle block.

Published
2014
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12. Conservation of tubulin-binding sequences in TRPV1 throughout evolution.

Author

Puspendu Sardar, Abhishek Kumar, Anita Bhandari, and Chandan Goswami

Subjects
Medicine, Science
Abstract

Transient Receptor Potential Vanilloid sub type 1 (TRPV1), commonly known as capsaicin receptor can detect multiple stimuli ranging from noxious compounds, low pH, temperature as well as electromagnetic wave at different ranges. In addition, this receptor is involved in multiple physiological and sensory processes. Therefore, functions of TRPV1 have direct influences on adaptation and further evolution also. Availability of various eukaryotic genomic sequences in public domain facilitates us in studying the molecular evolution of TRPV1 protein and the respective conservation of certain domains, motifs and interacting regions that are functionally important.Using statistical and bioinformatics tools, our analysis reveals that TRPV1 has evolved about ∼420 million years ago (MYA). Our analysis reveals that specific regions, domains and motifs of TRPV1 has gone through different selection pressure and thus have different levels of conservation. We found that among all, TRP box is the most conserved and thus have functional significance. Our results also indicate that the tubulin binding sequences (TBS) have evolutionary significance as these stretch sequences are more conserved than many other essential regions of TRPV1. The overall distribution of positively charged residues within the TBS motifs is conserved throughout evolution. In silico analysis reveals that the TBS-1 and TBS-2 of TRPV1 can form helical structures and may play important role in TRPV1 function.Our analysis identifies the regions of TRPV1, which are important for structure-function relationship. This analysis indicates that tubulin binding sequence-1 (TBS-1) near the TRP-box forms a potential helix and the tubulin interactions with TRPV1 via TBS-1 have evolutionary significance. This interaction may be required for the proper channel function and regulation and may also have significance in the context of Taxol®-induced neuropathy.

Published
2012
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13. Molecular phylogeny of OVOL genes illustrates a conserved C2H2 zinc finger domain coupled by hypervariable unstructured regions.

Author

Abhishek Kumar, Anita Bhandari, Rahul Sinha, Puspendu Sardar, Miss Sushma, Pankaj Goyal, Chandan Goswami, and Alessandro Grapputo

Subjects
Medicine, Science
Abstract

OVO-like proteins (OVOL) are members of the zinc finger protein family and serve as transcription factors to regulate gene expression in various differentiation processes. Recent studies have shown that OVOL genes are involved in epithelial development and differentiation in a wide variety of organisms; yet there is a lack of comprehensive studies that describe OVOL proteins from an evolutionary perspective. Using comparative genomic analysis, we traced three different OVOL genes (OVOL1-3) in vertebrates. One gene, OVOL3, was duplicated during a whole-genome-duplication event in fish, but only the copy (OVOL3b) was retained. From early-branching metazoa to humans, we found that a core domain, comprising a tetrad of C2H2 zinc fingers, is conserved. By domain comparison of the OVOL proteins, we found that they evolved in different metazoan lineages by attaching intrinsically-disordered (ID) segments of N/C-terminal extensions of 100 to 1000 amino acids to this conserved core. These ID regions originated independently across different animal lineages giving rise to different types of OVOL genes over the course of metazoan evolution. We illustrated the molecular evolution of metazoan OVOL genes over a period of 700 million years (MY). This study both extends our current understanding of the structure/function relationship of metazoan OVOL genes, and assembles a good platform for further characterization of OVOL genes from diverged organisms.

Published
2012
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14. Importance of non-selective cation channel TRPV4 interaction with cytoskeleton and their reciprocal regulations in cultured cells.

Author

Chandan Goswami, Julia Kuhn, Paul A Heppenstall, and Tim Hucho

Subjects
Medicine, Science
Abstract

BACKGROUND: TRPV4 and the cellular cytoskeleton have each been reported to influence cellular mechanosensitive processes as well as the development of mechanical hyperalgesia. If and how TRPV4 interacts with the microtubule and actin cytoskeleton at a molecular and functional level is not known. METHODOLOGY AND PRINCIPAL FINDINGS: We investigated the interaction of TRPV4 with cytoskeletal components biochemically, cell biologically by observing morphological changes of DRG-neurons and DRG-neuron-derived F-11 cells, as well as functionally with calcium imaging. We find that TRPV4 physically interacts with tubulin, actin and neurofilament proteins as well as the nociceptive molecules PKCepsilon and CamKII. The C-terminus of TRPV4 is sufficient for the direct interaction with tubulin and actin, both with their soluble and their polymeric forms. Actin and tubulin compete for binding. The interaction with TRPV4 stabilizes microtubules even under depolymerizing conditions in vitro. Accordingly, in cellular systems TRPV4 colocalizes with actin and microtubules enriched structures at submembranous regions. Both expression and activation of TRPV4 induces striking morphological changes affecting lamellipodial, filopodial, growth cone, and neurite structures in non-neuronal cells, in DRG-neuron derived F11 cells, and also in IB4-positive DRG neurons. The functional interaction of TRPV4 and the cytoskeleton is mutual as Taxol, a microtubule stabilizer, reduces the Ca2+-influx via TRPV4. CONCLUSIONS AND SIGNIFICANCE: TRPV4 acts as a regulator for both, the microtubule and the actin. In turn, we describe that microtubule dynamics are an important regulator of TRPV4 activity. TRPV4 forms a supra-molecular complex containing cytoskeletal proteins and regulatory kinases. Thereby it can integrate signaling of various intracellular second messengers and signaling cascades, as well as cytoskeletal dynamics. This study points out the existence of cross-talks between non-selective cation channels and cytoskeleton at multiple levels. These cross talks may help us to understand the molecular basis of the Taxol-induced neuropathic pain development commonly observed in cancer patients.

Published
2010
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15. Highly water-stable, luminescent, and monodisperse polymer-coated CsPbBr3 nanocrystals for imaging in living cells with better sensitivity

Author

Manav Raj Kar, Shamit Kumar, Tusar Kanta Acharya, Chandan Goswami, and Saikat Bhaumik

Subjects
General Chemical Engineering, General Chemistry
Abstract

PVP and NIPAM-coated CsPbBr3 NCs are highly luminescent and show excellent stability. These monodispersed NCs were successfully tested as a fluorescent probe for live cell imaging resulting in less cytotoxicity and high sensitivity.

Published
2023

21. TRPM8 as a potential target in neurodegenerative diseases

Author

Deep Shikha, Ritesh Dalai, and Chandan Goswami

Subjects
Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Health Policy, Neurology (clinical), Geriatrics and Gerontology
Published
2022

22. Function and regulation of thermosensitive ion channel TRPV4 in the immune system

Author

Tusar Kanta, Acharya, Ram Prasad, Sahu, Satish, Kumar, Shamit, Kumar, Tejas Pravin, Rokade, Ranabir, Chakraborty, Nishant Kumar, Dubey, Deep, Shikha, Saurabh, Chawla, and Chandan, Goswami

Subjects
Neurons, Immune System, Animals, Humans, TRPV Cation Channels, Lipids
Abstract

Transient receptor potential vanilloid sub-type 4 (TRPV4) is a six transmembrane protein that acts as a non-selective Ca

Published
2022

23. Role of TRPV4 in skeletal function and its mutant-mediated skeletal disorders

Author

Rashmita, Das and Chandan, Goswami

Subjects
Cholesterol, Phenotype, Animals, Humans, TRPV Cation Channels, Musculoskeletal Diseases, Bone and Bones
Abstract

TRPV4 is a non-selective cation channel that belongs to the TRP super family. This channel can be activated by physiological temperatures and mechanical stimuli. In addition, TRPV4 is modulated by several endogenous mediators including specific lipids, cholesterol and their metabolic products. TRPV4 gene is present in all vertebrates and is widely expressed in tissues originating from ectoderm, endoderm and mesoderm. Although TRPV4 knockout is not lethal, point mutations in TRPV4 cause severe clinical phenotypes with variable penetration in human population. These mutations are mostly "gain-of-function" in nature and primarily affect muscles, bones and peripheral neurons, endorsing TRPV4 as critical regulator of musculoskeletal systems. Here we critically analyze the involvement of TRPV4 in musculoskeletal system. Studies of TRPV4 mutations provide detailed information on musculoskeletal disorders at molecular, cellular and metabolic levels.

Published
2022

24. Presence of TRPV3 in macrophage lysosomes helps in skin wound healing against bacterial infection

Author

Ram P. Sahu and Chandan Goswami

Subjects
Dermatology, Molecular Biology, Biochemistry
Abstract

Transient Receptor Potential Vanilloid subtype 3 (TRPV3) is a non-selective cation channel that is known to be activated by physiological temperature and endogenous ligands. Involvement of TRPV3 in different skin functions has been reported. In this work, we demonstrate that activation of TRPV3 by FPP, an endogenous ligand enhances skin wound healing and bacterial clearance there. We report for the first time that TRPV3 is endogenously expressed in macrophages and activation of TRPV3 results in efficient bacterial clearance. At the subcellular level, TRPV3 is present in the lysosome and also in the nucleolus. We demonstrate that pharmacological modulation of TRPV3 protects lysosomal functions at hyperthermic shock conditions. The localization of TRPV3 at the nucleolus is specific, more in case of LPS-treatment and dynamic with respect to the cell signalling. We demonstrate that at certain conditions, the nucleolar localization of TRPV3 is correlated with the presence of TRPV3 at the lysosome and with the cellular stress in general. We propose that TRPV3 act as a lysosomal regulator and sensor for cellular stress. These findings may have broad implications in understanding the cellular stress and TRPV3-induced channelopathies and may have clinical relevance to skin infection treatment.

Published
2022

27. TRPV4 interacts with MFN2 and facilitates endoplasmic reticulum-mitochondrial contact points for Ca

Author

Tusar Kanta, Acharya, Ashutosh, Kumar, Shamit, Kumar, and Chandan, Goswami

Subjects
Mice, Animals, TRPV Cation Channels, Calcium, Endoplasmic Reticulum, Mitochondrial Dynamics, Mitochondria, GTP Phosphohydrolases
Abstract

Mitochondrial fission-fusion events, distribution, and CaWe have used TRPV4 expressing stable cell line CHO-K1-V4 and compared with CHO-K1-Mock as a control cell. We have also used mouse bone marrow derived mesenchymal stem cells and purified mitochondria from mouse brain for the interaction study.Now we demonstrate that expression and/or pharmacological modulation of TRPV4 regulates mitochondrial morphologies and Ca

Published
2022

29. Lowest aqueous picomolar fluoride ions and in vivo aluminum toxicity detection by an aluminum(<scp>iii</scp>) binding chemosensor

Author

Monojit Das, Chandan Goswami, Debdeep Maity, Prasenjit Mal, Tusar Kanta Acharya, Chandan Giri, and Sudip Sau

Subjects
Ions, Detection limit, Aqueous solution, Molecular Structure, Cell Survival, Chemistry, Optical Imaging, chemistry.chemical_element, Ion, Inorganic Chemistry, Fluorides, Mice, Electron transfer, chemistry.chemical_compound, RAW 264.7 Cells, In vivo, Aluminium, Toxicity, Animals, Fluoride, Aluminum, Fluorescent Dyes, Nuclear chemistry
Abstract

Aluminum toxicity in biological systems is a well-known issue yet remains as a prevalent and unsolvable problem due to the lack of proper molecular tools that can detect free aluminum(III) or Al(III) ions in vivo. Herein, we report a water-soluble photo-induced electron transfer (PET)-based turn-ON/OFF fluorometric chemosensor for the dual detection of Al(III) and fluoride ions in aqueous media with a nanomolar (∼1.7 × 10−9 M) and picomolar (∼2 × 10−12 M, lowest ever detection so far) detection limit, respectively. Fluoride ions in sea water could be detected as well as the recognition of non-contamination in drinking water. In addition, using live-cell microscopy, Al(III) ions were detected in live biological samples in vivo to aid establishing the aluminum-toxicity effect.

Published
2021

30. Cytochrome C interacts with the pathogenic mutational hotspot region of TRPV4 and forms complexes that differ in mutation and metal ion-sensitive manner

Author

Rashmita Das, Ashutosh Kumar, Ritesh Dalai, and Chandan Goswami

Subjects
Ions, Mutation, Biophysics, Cytochromes c, TRPV Cation Channels, Cell Biology, Molecular Biology, Biochemistry
Abstract

The importance of TRPV4 in physiology and disease has been reported by several groups. Recently we have reported that TRPV4 localizes in the mitochondria in different cellular systems, regulates mitochondrial metabolism and electron transport chain functions. Here, we show that TRPV4 colocalizes with Cytochrome C (Cyt C), both in resting as well as in activated conditions. Amino acid region 592-630 of TRPV4 (termed as Fr592-630) that also covers TM4-Loop-TM5 region (which is also a hotspot of several pathogenic mutations) interacts with Cyt C, in a Ca

Published
2022

31. Both heat-sensitive TRPV4 and cold-sensitive TRPM8 ion channels regulate microglial activity

Author

Ranabir Chakraborty and Chandan Goswami

Subjects
Cold Temperature, Hot Temperature, Biophysics, Animals, TRPM Cation Channels, TRPV Cation Channels, Cell Biology, Microglia, Molecular Biology, Biochemistry, Cell Line, Rats
Abstract

Microglia, the brain-resident macrophages, perform a myriad of functions directed towards development of neural circuits, and their maintenance. A plethora of ion channels aid in microglial activities that are critical for overall brain functioning. Notably, different functions of microglial cells are sensitive to minute temperature changes, as well as mechanical forces. Therefore, among all the players involved in the regulation of microglial functions, thermosensitive TRP ion channels are potentially important. In this study, we report the endogenous and functional presence of a heat-sensitive ion channel TRPV4 and a cold-sensitive ion channel TRPM8 in primary rat microglia and microglial cell line, N9. We demonstrate that pharmacological modulations of both these channels affect intracellular Ca

Published
2022

32. Inhibition of transient receptor potential vanilloid 1 (TRPV1) channel regulates chikungunya virus infection in macrophages

Author

Ram Prasad Sahu, Subhasis Chattopadhyay, Tapas Kumar Nayak, P. Sanjai Kumar, Ankita Datey, Chandan Mahish, Soma Chattopadhyay, Anukrishna Radhakrishnan, S. Sahoo, Saikat De, and Chandan Goswami

Subjects
Virus quantification, 0303 health sciences, 030306 microbiology, musculoskeletal, neural, and ocular physiology, TRPV1, virus diseases, Context (language use), General Medicine, Biology, medicine.disease_cause, Virology, Virus, 03 medical and health sciences, Immune system, nervous system, Cell culture, medicine, lipids (amino acids, peptides, and proteins), Tumor necrosis factor alpha, Chikungunya, 030304 developmental biology
Abstract

Chikungunya virus (CHIKV), a virus that induces pathogenic inflammatory host immune responses, is re-emerging worldwide, and there are currently no established antiviral control measures. Transient receptor potential vanilloid 1 (TRPV1), a non-selective Ca2+-permeable ion channel, has been found to regulate various host inflammatory responses including several viral infections. Immune responses to CHIKV infection in host macrophages have been reported recently. However, the possible involvement of TRPV1 during CHIKV infection in host macrophages has not been studied. Here, we investigated the possible role of TRPV1 in CHIKV infection of the macrophage cell line RAW 264.7. It was found that CHIKV infection upregulates TRPV1 expression in macrophages. To confirm this observation, the TRPV1-specific modulators 5'-iodoresiniferatoxin (5'-IRTX, a TRPV1 antagonist) and resiniferatoxin (RTX, a TRPV1 agonist) were used. Our results indicated that TRPV1 inhibition leads to a reduction in CHIKV infection, whereas TRPV1 activation significantly enhances CHIKV infection. Using a plaque assay and a time-of-addition assay, it was observed that functional modulation of TRPV1 affects the early stages of the viral lifecycle in RAW 264.7 cells. Moreover, CHIKV infection was found to induce of pNF-κB (p65) expression and nuclear localization. However, both activation and inhibition of TRPV1 were found to enhance the expression and nuclear localization of pNF-κB (p65) and production of pro-inflammatory TNF and IL-6 during CHIKV infection. In addition, it was demonstrated by Ca2+ imaging that TRPV1 regulates Ca2+ influx during CHIKV infection. Hence, the current findings highlight a potentially important regulatory role of TRPV1 during CHIKV infection in macrophages. This study might also have broad implications in the context of other viral infections as well.

Published
2020

33. Hyperspectral Spectroscopic Study of Soil Properties- A Review

Author

Naorem Janaki Singh, Bijoy Krishna Handique, and Chandan Goswami

Subjects
Statistics, Partial least squares regression, Linear regression, Hyperspectral imaging, Principal component regression, Environmental science, Soil properties, General Medicine
Abstract

Soil analysis is required for efficient use of inputs viz. seeds, fertilizers, irrigation water and other agricultural planning. However, there are several disadvantages of soil analysis such as they are time consuming, expensive and labour intensive. Many approaches are developed to overcome these difficulties. Hyperspectral spectroscopy is emerging as a promising tool for studying soil, water and vegetation. Therefore, an attempt has been made to review the scope of using hyperspectral reflectance spectroscopy for estimation of soil properties as an alternative to traditional laboratory soil analysis methods. Spectral signature of soil can be used for fast and non destructive estimation of soil properties. Diffuse reflectance in 350-2500 nm range of electromagnetic spectra forms the basis of hyperspectral spectroscopy. An object is characterized by the characteristic absorptions and peaks in the electromagnetic spectra. A number of calibration techniques are applied for establishing relationship between reflectance spectra and soil properties. Multiple Linear Regression (MLR), Principal Component Regression (PCR) and Partial Least Square Regression (PLSR) are most commonly used techniques. MLR, PCR and PLSR are also used for prediction of several soil properties such as pH, soil organic carbon content, nitrogen, phosphorus, potassium, calcium, magnesium, sodium, iron, manganese, zinc, copper, boron, molybdenum, sand silt, clay and soil moisture. Some commonly used spectral indices are also applied for prediction of soil properties. Some of the soil physical properties viz. sand, silt and clay as well as chemical properties viz. pH and organic carbon could be estimated with good to very good prediction using pure spectra of soil. However, contrasting results of prediction of soil properties using multivariate analysis techniques have also been reported. The content of this review article will be helpful for researchers who are working on alternate methods of estimation of soil properties.

Published
2020

34. Effect of Soil Orders and Land Uses on Available Soil Nutrients in Meghalaya, India

Author

Naorem Janaki Singh, Bijoy Krishna Handique, and Chandan Goswami

Subjects
Inceptisol, Soil nutrients, Land use, Agroforestry, Environmental science, Land use land cover, General Medicine, Ultisol
Abstract

Understanding of spatial distribution of available soil nutrients is important for sustainable land management. An attempt has been made to assess the spatial distribution of available soil nutrients under different soil orders and land uses of RiBhoi, Meghalaya, India using geo-statistical techniques. Seven Land Use Land Cover (LULC) classes were selected from LULC map on 1:50,000 scale prepared by National Remote Sensing Centre (NRSC) viz. Abandoned Jhum (AJ), Current Jhum (CJ), Deciduous Forest (DF), Double Crop (DC), Evergreen Forest (EF), Kharif Crop (KC) and Wastelands (WL). Again, three soil orders were identified by National Bureau of Soil Survey and Land Use Planning (NBSS&LUP) in RiBhoi district of Meghalaya, India viz. Alfisols, Inceptisols and Ultisols. 105 soil samples were collected, 5 replicated soil samples from 21 strata derived from 7 LULC and 3 soil orders. Soil samples were analyzed for available nitrogen (N), available phosphorus (P2O5), available potassium (K2O) and available zinc (Zn) using standard procedures. One way ANOVA was carried out using IBM SPSS Statistics 20.0 software. Significance levels were tested at p≤0.05. N content varied from low (215.50 kg/ha) to medium (414.30 kg/ha) with mean value of 291.50 kg/ha. On the other hand, P2O5 content varied from low (19.90 kg/ha) to high (68.30 kg/ha) with mean value of 43.52 kg/ha. Similarly, K2O content varied from low (112.09 kg/ha) to high (567.84 kg/ha) with mean value of 273.68 kg/ha. Again, Zn also varied from low (0.26 ppm) to high (1.46 ppm) with mean value of 0.64 ppm. In Alfisols, N was found to be higher in EF, AJ & CJ than DF, DC, KC and WL. KC has been found to have lower N than all other LULC classes. Higher P2O5 has been found under EF over KC and WL. AJ has been found to have higher K2O than all other LULC classes. K2O has also been found to be higher in CJ over DC, KC and WL. DF and EF have been found to have higher K2O than KC and WL. Zn has been found to be higher in EF over CJ, DC and WL. In Inceptisols, higher amount of N was observed under EF over all other LULC classes. Higher N has also been found under CJ over DF, DC, KC and WL. P2O5 content was found to be higher under DF over all other LULC classes. Higher P2O5 content was also found under AJ, CJ and DC than KC and WL. Higher amount of K2O has been found under AJ over all other LULC. K2O content of soil under DF was also higher than CJ, EF, KC and WL. Zn has been found to be higher under EF over all other LULC classes. Zn content under CJ has also been found to be higher than AJ, DF, KC and WL. In Ultsols, higher amount of N has been found under EF compared to all other LULC classes. Lowest N content was found under KC. P2O5 content was found to be higher under EF, DF and AJ over all other LULC. K2O content has been found to be higher under CJ in comparison to all other LULC classes. K2O content of EF and DF were also found to be higher than AJ, DC, KC and WL. Again, K2O content has been found to be higher under DC compared to AJ, KC and WL. Zn content under EF and AJ was found to be higher than all other LULC classes. CJ, DF, DC, KC and WL have been found to have lower Zn content. It has been observed that P2O5 content is significantly higher in inceptisols irrespective of LULC classes. The study has highlighted the spatial distribution of available soil nutrients as a function of soil orders and LULC. This will be a useful input in sustainable land management programmes.

Published
2020

37. Human skeletal dysplasia causing L596P-mutant alters the conserved amino acid pattern at the lipid-water-Interface of TRPV4

Author

Rashmita, Das, Sushama, Mohanta, Nishant Kumar, Dubey, Nilesh Kumar, Das, and Chandan, Goswami

Subjects
Cholesterol, Biophysics, Humans, TRPV Cation Channels, Water, Channelopathies, Cell Biology, Amino Acids, Lipids, Biochemistry
Abstract

TRPV4 is a polymodal and non-selective cation channel that is activated by multiple physical and chemical stimuli.50 naturally occurring point-mutation of TRPV4 have been identified in human, most of which induce different diseases commonly termed as channelopathies. While, these mutations are either "gain-of-function" or "loss-of-function" in nature, the exact molecular and cellular mechanisms behind such diverse channelopathies are largely unknown. In this work, we analyze the evolutionary conservation of individual amino acids present in the lipid-water-interface (LWI) regions and the relationship of TRPV4 with membrane cholesterol. Our data suggests that the positive-negative charges and hydrophobic-hydrophilic amino acids form "specific patterns" in the LWI region which remain conserved throughout the vertebrate evolution and thus suggesting for the specific microenvironment where TRPV4 remain functional. Notably, Spondylometaphyseal Dysplasia, Kozlowski (SMDK) disease causing L596P mutation disrupts this pattern significantly at the LWI region. L596P mutant also sequesters Caveolin-1 differently, especially in partial cholesterol-depleted (~40 % reduction) conditions. L596P shows altered localization in membrane and enhanced Ca

Published
2023

39. Hydrogel-Mediated Release of TRPV1 Modulators to Fine Tune Osteoclastogenesis

Author

Ranabir Chakraborty, Tusar Kanta Acharya, Nikhil Tiwari, Rakesh Kumar Majhi, Satish Kumar, Luna Goswami, and Chandan Goswami

Subjects
General Chemical Engineering, General Chemistry
Abstract

Bone defects, including bone loss due to increased osteoclast activity, have become a global health-related issue. Osteoclasts attach to the bone matrix and resorb the same, playing a vital role in bone remodeling. Ca

Published
2021

40. Carbohydrate-Coated Gold–Silver Nanoparticles for Efficient Elimination of Multidrug Resistant Bacteria and in Vivo Wound Healing

Author

Chandan Goswami, Mitali Mishra, Puspendu Guha, Rakesh Kumar Majhi, Saurabh Chawla, Ankit Tiwari, Abhishek Singh, Biswarup Satpati, Harapriya Mohapatra, Satish Kumar, and Luna Goswami

Subjects
Materials science, biology, medicine.drug_class, Antibiotics, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, 01 natural sciences, Silver nanoparticle, 0104 chemical sciences, Microbiology, Multiple drug resistance, In vivo, biology.protein, medicine, General Materials Science, 0210 nano-technology, Antibacterial activity, FtsZ, Wound healing, Bacteria
Abstract

Multidrug resistant (MDR) bacteria have emerged as a major clinical challenge. The unavailability of effective antibiotics has necessitated the use of emerging nanoparticles as alternatives. In thi...

Published
2019

41. Microscopic Observation of Acid Rain Induced Bacopa monnieri L

Author

Shradhanjali Behera, Shyamasree Ghosh, Chandan Goswami, Pramod Chandra Mishra, and B. Mallick

Subjects
biology, Magnesium, Starch, Potassium, food and beverages, chemistry.chemical_element, Calcium, biology.organism_classification, Industrial and Manufacturing Engineering, Chloroplast, Cell wall, chemistry.chemical_compound, chemistry, Biophysics, Acid rain, Bacopa monnieri
Abstract

Acid rain (AR) has been reported to induce stress in plants affecting its productivity, growth, flowering and physiology. The molecular changes induced in plants due to the effect of acid rain or acid induced orientation or chloroplast streaming remains largely unknown. Therefore, in the current study we report for the first time the static and permanent changes in the cell of the medicinal plant Bacopa monnieri L. due to sulphur-simulated acid rain (S-SiAR). AR induced effects witnessed by the reduction of the size of starch granules and chloroplast, amount of the granules per unit area, dissolving cell walls, breaking the normal fiber, salt-induced strain in the various components of the cell. Effect of starch granule and chloroplast due to S-SiAR was analyzed using light, confocal and scanning electron microscopic techniques. The elements viz. potassium and magnesium present in the chloroplasts reveal acidic pH due to effect of S-SiAR observed by the ionization of Mg and K (to Mg2+ and K+), in which K+ induced by the effects of S-SiAR revealed a net negative Nernst potential of about -87.55 mV. Calcium is mainly present on the cell walls and responsible for binding of starch granules become ionized to Ca2+ on interacting with AR indicated by the altered Nernst potential of +137.04 mV. A net potential difference may cause the above streaming of chloroplast towards the large starch granules. From this study, we report AR-induced physiological changes in medicinal plant Bacopa monnieri L. for the first time.

Published
2019

45. Transient receptor potential vanilloid 1-6 (Trpv1-6) gene expression in the mouse brain during estrous cycle

Author

Santosh Kumar, Uday Singh, Chandan Goswami, Praful S. Singru, and Omprakash Singh

Subjects
Male, 0301 basic medicine, TRPV4, endocrine system, TRPV5, medicine.drug_class, TRPV1, Gene Expression, TRPV Cation Channels, Estrogen receptor, Estrous Cycle, Biology, Hippocampus, TRPV, Mice, 03 medical and health sciences, Transient receptor potential channel, medicine, Animals, RNA, Messenger, Molecular Biology, Brain Mapping, Mice, Inbred BALB C, Estradiol, General Neuroscience, Brain, Estrogens, Cell biology, Olfactory bulb, 030104 developmental biology, Receptors, Estrogen, nervous system, Estrogen, Female, Calcium Channels, Neurology (clinical), hormones, hormone substitutes, and hormone antagonists, Developmental Biology
Abstract

In recent years estradiol has emerged as a potential regulator of transient receptor potential vanilloid (TRPV) cationic channels in the peripheral tissues and sensory neurons, however, its analogous role in the CNS is poorly understood. TRPV channels modulate Ca2+ signalling, neurotransmission and behaviour, and expression of these ion channels and estrogen receptors show a great degree of overlap in different brain regions. Herein, we probe if Trpv1-6 genes contain estrogen receptor-binding sites and if their expression in different brain regions is modulated during estrous cycle. Bioinformatics analysis of the mouse Trpv1-6 gene sequences showed presence of putative functional estrogen response element in their promoter regions. Using qRT-PCR, Trpv1-6 mRNA expression was observed in the olfactory bulb, cortex, hypothalamus, hippocampus, brainstem, and cerebellum of mouse. In these regions, compared to estrus, metestrus, and diestrus, reduced levels of Trpv1 and Trpv5 but elevated Trpv2 and Trpv6 mRNA levels were observed during proestrus. Lower levels of Trpv3 and Trpv4 mRNAs were seen during estrus but higher expression of Trpv3 during metestrus and diestrus, and Trpv4 during proestrus was observed. Estradiol seems to regulate Trpv1/Trpv5 and Trpv2/Trpv6 mRNA expression in opposite manner. Except Trpv4 mRNA expression in the hippocampus and Trpv6 expression in the olfactory bulb, hippocampus and brainstem, expression of other members of TRPV subfamily in distinct brain regions of male mice was comparable to those in metestrus and diestrus mice. We suggest that the circulating levels of estradiol during the estrous cycle may differentially regulate the activity of TRPV1-6 ion channels in the brain.

Published
2018

46. TRPM8 channel inhibitor-encapsulated hydrogel as a tunable surface for bone tissue engineering

Author

Ankit Tiwari, Abhishek Singh, Rashmita Das, Pradip K. Maji, Rakesh Kumar Majhi, Luna Goswami, Tusar Kanta Acharya, Satish Kumar, Ashutosh Kumar, Chandan Goswami, Arijit Ghosh, Subhashis Pal, Naibedya Chattopadhyay, and Nikhil Tiwari

Subjects
Male, Cell biology, Science, Primary Cell Culture, TRPM Cation Channels, Bone Marrow Cells, Thiophenes, Mineralization (biology), Article, Bone and Bones, Bone tissue engineering, Biomaterials, Rats, Sprague-Dawley, Mice, Downregulation and upregulation, Osteogenesis, Animals, Osteoblast cell, Cells, Cultured, Mice, Inbred BALB C, Osteoblasts, Multidisciplinary, Trpm8 channel, Tissue Engineering, Chemistry, Mesenchymal stem cell, Cell Differentiation, Hydrogels, Mesenchymal Stem Cells, Adhesion, Rats, Benzamides, Medicine, Female, Stem cell
Abstract

A major limitation in the bio-medical sector is the availability of materials suitable for bone tissue engineering using stem cells and methodology converting the stochastic biological events towards definitive as well as efficient bio-mineralization. We show that osteoblasts and Bone Marrow-derived Mesenchymal Stem Cell Pools (BM-MSCP) express TRPM8, a Ca2+-ion channel critical for bone-mineralization. TRPM8 inhibition triggers up-regulation of key osteogenesis factors; and increases mineralization by osteoblasts. We utilized CMT:HEMA, a carbohydrate polymer-based hydrogel that has nanofiber-like structure suitable for optimum delivery of TRPM8-specific activators or inhibitors. This hydrogel is ideal for proper adhesion, growth, and differentiation of osteoblast cell lines, primary osteoblasts, and BM-MSCP. CMT:HEMA coated with AMTB (TRPM8 inhibitor) induces differentiation of BM-MSCP into osteoblasts and subsequent mineralization in a dose-dependent manner. Prolonged and optimum inhibition of TRPM8 by AMTB released from the gels results in upregulation of osteogenic markers. We propose that AMTB-coated CMT:HEMA can be used as a tunable surface for bone tissue engineering. These findings may have broad implications in different bio-medical sectors.

Published
2021

47. Contributors

Author

Oluwafemi Ayodeji Adebo, Martins Ajibade Adefisoye, Md Latiful Bari, Sudhanshu S. Behera, Ramakrishna Biswal, Wei Chen, Urmimala Das, Gargi Dey, Eleftherios H. Drosinos, Chandan Goswami, Ezekiel Green, Tatsuhiko Hirota, Julie Kellershohn, Nasim Khorshidian, Sae Hun Kim, Jongho Koh, Sripathi Rao Kulkarni, Kwangsei Lim, Natalia Lumby, Soumya R. Mahapatra, Md Arafat Al Mamun, Juliana Mandha, Athanasia O. Matemu, Swati S. Mishra, Namrata Misra, Sushama Mohanta, Neda Mollakhalili Meybodi, Didier Montet, Amir M. Mortazavian, Sarah Sanaei Nasab, Patrick Berka Njobeh, Ajibola Bamikole Oyedeji, Sandeep K. Panda, Spiros Paramithiotis, Jonghun (Jay) Park, Katleen Raes, Inge Russell, Susrita Sahoo, Lopamudra Sahu, Habtu Shumoy, Mrutyunjay Suar, Hirosuke Sugahara, Maria K. Syrokou, Pei Lei Tan, Phillippe Thonart, Sudsai Trevanich, and Mojtaba Yousefi

Published
2021

48. TRP channels in the gut: Effect of probiotics and phyto-nutraceuticals on gut-brain-immune axis

Author

Chandan Goswami and Sushama Mohanta

Subjects
Chemistry, Prebiotic, medicine.medical_treatment, digestive, oral, and skin physiology, law.invention, Transient receptor potential channel, Probiotic, Nutraceutical, Immune system, Biochemistry, law, medicine, Probiotic bacteria, Function (biology), Ion channel
Abstract

Transient receptor potential (TRP) channels are a group of nonselective ion channels that are expressed in different cells constituting the gut tissue. These channels play important roles in the overall function and physiology of the gut tissue and are involved in different aspects of gastro, immune, neuronal, reproductive, and often behavioral functions. These functions can be substantially modulated either positively or negatively depending on the foods that we take in and the small and active compounds that are present in these foods. Different active compounds from plants, animals, microbes, mushrooms, as well as different toxins, peptides, small compounds, and certain metabolites from probiotic bacteria can either activate or inhibit these channels. The chemistry between TRPs and these small compounds have positive or negative aspects on the gut tissue depending on the molecular targets and/or quality, as well as the quantity of these compounds present in different foods. In this chapter, some of the specific aspects of TRP channels in the gut that can be specifically targeted by prebiotic, probiotic, postbiotic, and phyto-nutraceuticals factors for better health benefits are highlighted.

Published
2021

50. TRPV2 interacts with actin and reorganizes submembranous actin cytoskeleton

Author

Chandan Goswami and Manoj Yadav

Subjects
0301 basic medicine, Time Factors, Growth-cone, Neurite, Neurogenesis, Growth Cones, Biophysics, TRPV Cation Channels, CHO Cells, Biochemistry, Filamentous actin, 03 medical and health sciences, Cricetulus, 0302 clinical medicine, Cell Line, Tumor, Neurites, Animals, HaCaT Cells, Humans, Protein Interaction Domains and Motifs, Calcium Signaling, Neurodegeneration, Growth cone, Cell Shape, Molecular Biology, Research Articles, Actin, Chemistry, Actin cytoskeleton, Cell Biology, Actins, Ca2+-signaling, Cell biology, HEK293 Cells, 030104 developmental biology, Ectopic expression, Cell Membranes, Excitation & Transport, Lamellipodium, Ion channel, Filopodia, 030217 neurology & neurosurgery, Protein Binding, Neuroscience
Abstract

The understanding of molecules and their role in neurite initiation and/or extension is not only helpful to prevent different neurodegenerative diseases but also can be important in neuronal damage repair. In this work, we explored the role of transient receptor potential vanilloid 2 (TRPV2), a non-selective cation channel in the context of neurite functions. We confirm that functional TRPV2 is endogenously present in F11 cell line, a model system mimicking peripheral neuron. In F11 cells, TRPV2 localizes in specific subcellular regions enriched with filamentous actin, such as in growth cone, filopodia, lamellipodia and in neurites. TRPV2 regulates actin cytoskeleton and also interacts with soluble actin. Ectopic expression of TRPV2-GFP in F11 cell induces more primary and secondary neurites, confirming its role in neurite initiation, extension and branching events. TRPV2-mediated neuritogenesis is dependent on wildtype TRPV2 as cells expressing TRPV2 mutants reveal no neuritogenesis. These findings are relevant to understand the sprouting of new neurites, neuroregeneration and neuronal plasticity at the cellular, subcellular and molecular levels. Such understanding may have further implications in neurodegeneration and peripheral neuropathy.

Published
2020

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