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Molecular basis of TRPA1 regulation in nociceptive neurons. A review
A. Kádková, V. Synytsya, J. Krusek, L. Zímová, V. Vlachová
Language English Country Czech Republic
Document type Journal Article, Review
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- MeSH
- Pain genetics metabolism MeSH
- Bradykinin genetics metabolism MeSH
- TRPA1 Cation Channel physiology MeSH
- Humans MeSH
- Nociceptors physiology MeSH
- Signal Transduction physiology MeSH
- Animals MeSH
- Check Tag
- Humans MeSH
- Animals MeSH
- Publication type
- Journal Article MeSH
- Review MeSH
Transient receptor potential A1 (TRPA1) is an excitatory ion channel that functions as a cellular sensor, detecting a wide range of proalgesic agents such as environmental irritants and endogenous products of inflammation and oxidative stress. Topical application of TRPA1 agonists produces an acute nociceptive response through peripheral release of neuropeptides, purines and other transmitters from activated sensory nerve endings. This, in turn, further regulates TRPA1 activity downstream of G-protein and phospholipase C-coupled signaling cascades. Despite the important physiological relevance of such regulation leading to nociceptor sensitization and consequent pain hypersensitivity, the specific domains through which TRPA1 undergoes post-translational modifications that affect its activation properties are yet to be determined at a molecular level. This review aims at providing an account of our current knowledge on molecular basis of regulation by neuronal inflammatory signaling pathways that converge on the TRPA1 channel protein and through modification of its specific residues influence the extent to which this channel may contribute to pain.
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