TRP channels in health and disease at a glance

Yue, Lixia; Xu, Haoxing

doi:10.1242/jcs.258372

Cited by 22 publications

(19 citation statements)

References 206 publications

(244 reference statements)

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“…Besides being reactive to temperature, it also interacts with endogenous signaling molecules, natural compounds from plants (e.g., mustard, wasabi, garlic, horseradish, or cinnamon), and other chemicals (e.g., paraben, acrolein). 15 , 16 , 17 In the human urogenital tract, where NO is an established signaling molecule, modulatory functions by NO on the activity of TRPA1 have been suggested. Furthermore, dihydrogen sulfide (H 2 S), another endogenous signaling molecule that activates TRPA1, has been reported to be involved in the regulation of functions of the lower urinary tract and cardiovascular system and the mediation of neurogenic inflammation but is also produced by invading uropathogens .…”

Section: Discussionmentioning

confidence: 99%

“…In addition, the role of TRPA1 in the physiological response to noxious provocation and the involvement of the ion channel in pain and inflammation emphasizes its importance in medicine. Besides being reactive to temperature, it also interacts with endogenous signaling molecules, natural compounds from plants (e.g., mustard, wasabi, garlic, horseradish, or cinnamon), and other chemicals (e.g., paraben, acrolein) 15–17 . In the human urogenital tract, where NO is an established signaling molecule, modulatory functions by NO on the activity of TRPA1 have been suggested.…”

Section: Discussionmentioning

confidence: 99%

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Expression and distribution of the transient receptor potential cationic channel ankyrin 1 (TRPA1) in the human seminal vesicles

Rahardjo

Ückert

Kuczyk

et al. 2022

Health Science Reports

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Background and Aims The transient receptor potential cationic channel ankyrin 1 (TRPA1), a channel protein permeable to most divalent cations, has been suggested to play a role in mechano‐afferent/efferent signaling (including the release of neurotransmitters) in the human urinary tract (bladder, prostate, and urethra). To date, only a few studies have addressed the expression of this receptor in male and female reproductive tissues. The present study aimed to evaluate human seminal vesicles (SVs) for the expression and localization of TRPA1. Methods SV tissue was obtained from 5 males who had undergone pelvic surgery due to malignancies of the prostate or urinary bladder. The expression of messenger ribonucleic acid (mRNA) specifically encoding for the TRPA1 protein was elucidated by means of reverse transcriptase polymerase chain reaction (RT‐PCR). Using immunohistochemical methods, the distribution of TRPA1 was examined in relation to the endothelial and neuronal nitric oxide synthases (eNOS, nNOS) and the neuropeptides calcitonin gene‐related peptide (CGRP) and vasoactive intestinal polypeptide (VIP). Results RT‐PCR revealed signals related to the expected molecular size of 656 bp. Immunohistochemistry demonstrated that TRPA1 is located in nerves running through the smooth muscle portion of the SV. Here, the protein is in part co‐localized with nNOS and CGRP, whereas no co‐localization with VIP was registered. Dot‐like signals specific for TRPA1 were observed in the cytoplasm of epithelial cells lining the lumen of glandular spaces. The epithelial layer also presented staining for eNOS. The smooth musculature appeared free of immunosignals for TRPA1. Conclusion The results convincingly show the expression of TRPA1 in nerve endings as well as in epithelial cells of the SV. Based on its location in epithelial cells, TRPA1 might be involved in the mechanism of the NO/cyclic guanosine monophosphate (GMP)‐mediated signaling and also the control of secretory function (mediated by cyclic GMP) in the human SV.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Expression and distribution of the transient receptor potential cationic channel ankyrin 1 (TRPA1) in the human seminal vesicles

Rahardjo

Ückert

Kuczyk

et al. 2022

Health Science Reports

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“…TRP channels are cation channels found on the surface of cell membranes that can penetrate Ca 2+ , Mg 2+ , Na + , K + , and other cations. The TRP superfamily is categorized into seven subfamilies on the basis of the amino acid sequence homology, which is as follows: TRPM, TRPML, TRPA, TRPC, TRPN, TRPP, and TRPV [ 13 , 14 ]. In tumors, the signal pathway imbalance can regulate the expression level of some TRP channels, thus altering the sensitivity and adaptability of cells to the external environment [ 15 , 16 ].…”

Section: Discussionmentioning

confidence: 99%

Systematic Analysis and Identification of Molecular Subtypes of TRP-Related Genes and Prognosis Prediction in Lung Adenocarcinoma

Guo

Liu

2022

Journal of Oncology

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Background. Transient receptor potential channel (TRP) is a superfamily of nonselective cation channels, which is a member of calcium ion channels with a vital role in different calcium ion signal transduction pathways. TRP channel expression is often changed in the tumor, although the role of TRP proteins in lung cancer is unknown. Methods. Molecular Signatures Database (MsigDB) provided the TRP gene set. Univariate Cox regression analysis was performed on The Cancer Genome Atlas Lung Adenocarcinoma (TCGA-LUAD) data collection set employing the coxph function of R package survival to find prognosis-related genes. The R package ConsumusClusterPlus was employed for doing the consistency cluster analysis of TCGA-LUAD samples according to the prognosis-related TRP gene. The R-package limma was utilized for investigating the differential expression of TRP subtypes. According to the differentially expressed genes between subtypes, the least absolute shrinkage and selection operator (LASSO) regression was employed to find the major genes and develop the risk model. CIBERPORT algorithm, R package maftools, gene set variation analysis (GSVA), and pRRophetic of R-package were employed for measuring the proportion of immune cells among subtypes, genomic mutation difference, pathway enrichment score, and drug sensitivity analysis. Results. A total of 15 TRP-related genes associated with the prognosis of lung adenocarcinoma were found. According to the expression value of 15 genes, lung adenocarcinoma can be sorted into two subcategories. The prognosis of cluster1 is considerably better in comparison with that of cluster2. There were 123 differentially expressed genes between C1 and C2 subtypes, including 6 up- and 117 downregulated genes. There were major variations in the tumor microenvironment between C1 and C2 subtypes. The proportion of CD8 T cells in the C1 subtype was considerably enhanced in comparison with that in the C2 subtype. We further discovered 123 differentially expressed genes among subtypes, and 8 key genes were obtained at the end. The risk score (RS) model developed by the 8-gene signature had good strength in the TCGA validation set, overall set, and Gene Expression Omnibus (GEO) external dataset. There were major variations in immune checkpoint gene expression, patient sensitivity to immunotherapeutic drugs, immune infiltration, and genomic mutations between high and low groups on the basis of RS. Conclusions. The risk model developed on the basis of TRP-related genes can help in predicting the prognosis of patients suffering from lung adenocarcinoma and guide immunotherapy.

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“…Historically, the trp gene and TRP proteins were identified in a mutant drosophila melanogaster with a defect in the Ca 2+ influx component of the visual transduction pathway ( Hardie and Minke, 1992 ). Since then, almost 30 TRPs have been identified and classified into subgroups ( Nilius and Owsianik, 2011 ; Yue and Xu, 2021 ): canonical (TRPC), vanilloid (TRPV), melastatin (TRPM), ankyrin (TRPA), polycystin (TRPP), mucolipin (TRPML), as well as the no mechanoreceptor potential (TRPN). Many TRP channels are present in the heart [see ( Freichel et al, 2017 )], in which they may participate in the regulation of normal function or in pathophysiological processes ( Hof et al, 2019 ; Inoue et al, 2019 ).…”

Section: Overview Of Trp Channelsmentioning

confidence: 99%

Emerging role of transient receptor potential (TRP) ion channels in cardiac fibroblast pathophysiology

Gwanyanya

Mubagwa

2022

Front. Physiol.

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Cardiac fibroblasts make up a major proportion of non-excitable cells in the heart and contribute to the cardiac structural integrity and maintenance of the extracellular matrix. During myocardial injury, fibroblasts can be activated to trans-differentiate into myofibroblasts, which secrete extracellular matrix components as part of healing, but may also induce cardiac fibrosis and pathological cardiac structural and electrical remodeling. The mechanisms regulating such cellular processes still require clarification, but the identification of transient receptor potential (TRP) channels in cardiac fibroblasts could provide further insights into the fibroblast-related pathophysiology. TRP proteins belong to a diverse superfamily, with subgroups such as the canonical (TRPC), vanilloid (TRPV), melastatin (TRPM), ankyrin (TRPA), polycystin (TRPP), and mucolipin (TRPML). Several TRP proteins form non-selective channels that are permeable to cations like Na+ and Ca2+ and are activated by various chemical and physical stimuli. This review highlights the role of TRP channels in cardiac fibroblasts and the possible underlying signaling mechanisms. Changes in the expression or activity of TRPs such as TRPCs, TRPVs, TRPMs, and TRPA channels modulate cardiac fibroblasts and myofibroblasts, especially under pathological conditions. Such TRPs contribute to cardiac fibroblast proliferation and differentiation as well as to disease conditions such as cardiac fibrosis, atrial fibrillation, and fibroblast metal toxicity. Thus, TRP channels in fibroblasts represent potential drug targets in cardiac disease.

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TRP channels in health and disease at a glance

Cited by 22 publications

References 206 publications

Expression and distribution of the transient receptor potential cationic channel ankyrin 1 (TRPA1) in the human seminal vesicles

Expression and distribution of the transient receptor potential cationic channel ankyrin 1 (TRPA1) in the human seminal vesicles

Systematic Analysis and Identification of Molecular Subtypes of TRP-Related Genes and Prognosis Prediction in Lung Adenocarcinoma

Emerging role of transient receptor potential (TRP) ion channels in cardiac fibroblast pathophysiology

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