1. TRPA1-mediated spontaneous [Ca(2+)]i increase modulates the spontaneous release of peptide hormones from astrocytes. PMID: 29777700
2. Upregulated substance P (SP) and TRPA1 in the dorsal root ganglion and stomach and increased serum and gastric mucosa SP levels may contribute to stress-induced acute gastric mucosal lesions. PMID: 29428952
3. IL-6 synthesis and secretion were connected to acute Peritoneal dialysis fluid exposure, and this response was triggered by TRPA1 receptors, possibly located to non-neuronal cells. PMID: 28698251
4. The TRPA1 channel is activated by noxious cold, reactive oxygen species and mechanical stimuli and is expressed in small- and medium-sized nociceptive neurons of the dorsal root, trigeminal, and nodose ganglia. PMID: 28640016
5. TRPA1 receptors on nociceptors are active in incised fascia and muscle but this is not evident in incised skin. Even though endogenous TRPA1 agonists like ROS and H2O2 were increased in both incised skin and muscle, those in skin do not contribute to nociceptive behaviors. PMID: 28103292
6. Tetracaine facilitated spontaneous l-glutamate release from nerve terminals by activating TRPA1 channels in the substantia gelatinosa (SG), resulting in an increase in the excitability of SG neurons. TRPA1 activation was not specific to amide-type or ester-type local anesthetics (LAs). The facilitatory action of LAs may be involved in pain occurring after recovery from spinal anesthesia. PMID: 28017670
7. expression in distal colonic mucosa may be involved restored colonic transit after pelvic nerve denervation PMID: 28032561
8. High TRPA1 expression is associated with neuropathic pain. PMID: 28370084
9. TRPA1 functions as a sensor that is activated by reactive aldehydes and is modulated when intracellular changes in oxygen levels occur. PMID: 27748654
10. data suggest that cardamonin is a selective TRPA1 antagonist, providing novel insight into the target of its anti-nociceptive activity. PMID: 27589700
11. Our results indicate that cannabinoids can enhance the mechanosensitivity of TG endings in the inner walls of anterior chambers of rat eye via TRPA1 activation. PMID: 27752892
12. TRPA1-channels involvement in the activation of bladder DSM contraction of normal rats and rats with experimental diabetes. Our data show that diabetes affects TRPA1-dependent mechanisms of DSM contractility mainly via an overall inflammatory reaction associated with diabetes, which leads to an enhanced functional coupling between the tachykinin and prostanoid systems. PMID: 26935999
13. Spinal TRPA1 may contribute to facilitation of morphine antinociceptive tolerance. PMID: 26922555
14. Report activation of TRPA1 by o-chlorobenzylidene malononitrile as model of neuropathic pain. PMID: 26046936
15. Meningeal blood flow is controlled by H2S-NO crosstalk activating a HNO-TRPA1-CGRP signalling pathway PMID: 25884403
16. TRPA1 expression via activation of p38 MAPK in DRG neurons, at least in part, contributes to the development of oxaliplatin-induced acute cold hyperalgesia. PMID: 26567040
17. The results of this study showed that TRPA1 in muscle afferents plays an important role in the development of acute mechanical hypersensitivity and in the maintenance of persistent muscle pain and hypersensitivity. PMID: 26393428
18. H2S has both inhibitory and excitatory effects by opening KATP and TRPA1 channels, respectively, in RIN14B cells, suggesting potential bidirectional modulation of secretory functions. PMID: 26172081
19. The TRPA1 channel mediates the analgesic action of dipyrone and pyrazolone derivatives PMID: 25765567
20. TRPA1 appears to be localized not only at presynaptic terminals on SG neurons, enhancing glutamate release PMID: 25896791
21. Results suggested that TRPA1 mechanisms play a significant role in the sensitization of ocular-responsive trigeminal brainstem neurons in this model for tear deficient dry eye PMID: 25639234
22. TRPA1 is a major mediator of the proinflammatory/proalgesic actions of aromatase inhibitors PMID: 25484020
23. TRPA1 channel has a role in activation of mechanosensitive afferent nerve activities of both Adelta- and C-fibers of the rat bladder, although its role in a physiological condition might be small. PMID: 23784920
24. TRPA1 activation by H2O2 mediates the entire inflammatory response in an acute gout attack rodent model PMID: 24780252
25. The results suggest that TRPA1 channels in rat odontoblastgs are involved in sensing membrane stretching and low-temperature stimulation. PMID: 24358160
26. TRPA1 is essential to the in vivo nociceptive effects induced by one of the most important mediators of inflammatory pain, prostaglandin E. PMID: 24607781
27. Hydrogen sulfide directly activates TRPA1 and its increment of diffusion into cells may be involved in the potentiation of TRPA1 activation under external acidic conditions. PMID: 23873754
28. the actions of cyclooxygenase metabolites are mediated through the functioning of the TRPV1 and TRPA1 receptors PMID: 23832015
29. TRPA1 might be involved in the pathophysiological process of ventilator-induced lung injury PMID: 23846257
30. Cold activates rat and mouse TRPA1 but not human or rhesus monkey TRPA1. A single residue within the S5 transmembrane domain (G878 in rodent but V875 in primate) accounts for the difference in cold sensitivity. PMID: 24071625
31. Reactive oxygen species enhance synaptic transmission in dorsal horn cells through TRPA1 (and TRPV1) channel activation. PMID: 23707800
32. Data suggest spinal TRPA1 channels in posterior horn cells are involved in mechanical pain hypersensitivity, in increased cutaneous blood flow due to antidromic activation of nociceptive nerves, and in pronociceptive action of dynorphin A. PMID: 23959730
33. Monosodium urate injection increases tissue H2 O2 , thereby stimulating TRPA-1 on sensory nerve endings to produce inflammation and nociception. PMID: 23918657
34. H2S induces a nonspecific sensitizing effect on capsaicin-sensitive lung vagal fibers to both chemical and mechanical stimulation in rat lungs, which appears mediated through an action on the TRPA1 receptors. PMID: 23842678
35. Gene silencing of TRPA1 completely prevents carrageenan-induced hyperalgesia and significantly reduces TRPA1 expression in dorsal root ganglia cells. PMID: 23098993
36. The results of this study demonstrated that TRPA1 mediates some of the key inflammatory mechanisms, suggesting a key role of this receptor in pain and inflammation. PMID: 23521647
37. Factors that stimulate TRPA1 channels expand Ca2+ signal-effector coupling at discrete sites along the endothelium to evoke graded cerebral artery vasodilation. PMID: 22928941
38. TRPA1 channel in the skin contributes to sustained as well noxious mechanical stimulus-evoked postoperative pain PMID: 22588108
39. Hydrogen sulfide activates TRPA1 receptors causing CGRP release from sensory nerves of rat tracheae. PMID: 22721614
40. TRPA1 is functionally expressed primarily by IB4-binding, non-peptidergic mouse and rat sensory neurons PMID: 23133534
41. Trpa1 expression in female Wistar rats varied with postnatal age, tissue (urothelium, detrusor, or whole bladder), and duration (4-h, 48-h, or chronic) of cyclophosphamide-induced cystitis. PMID: 22865090
42. TRPA1 contributes to cold-induced contractions of the rat colon smooth muscle, and the mechanism involves the PLC/IP(3)/Ca(2+) pathway. PMID: 20717636
43. TRPA1 is expressed on a substantial fraction of dural afferents, and activation of meningeal TRPA1 produces behaviors consistent with those observed in patients during migraine attacks. PMID: 22809691
44. Methylglyoxal activates nociceptors through transient receptor potential channel A1 (TRPA1): a possible mechanism of metabolic neuropathies. PMID: 22740698
45. Study propose that endogenous and exogenous ligands of TRPA1 cause Ca(2) influx and induce basal insulin release and that TRPA1-mediated depolarization acts synergistically with K(ATP) channel blockade to facilitate insulin release. PMID: 22701540
46. The results indicate that warmth suppresses and desensitizes damage-sensing ion channel TRPA1. PMID: 22458587
47. TRPA1 channel exerts an important role in the pathogenesis of peripheral diabetic neuropathy. Blocking the TRPA1 channel provides a selective disease-modifying treatment of PDN. PMID: 22133672
48. The electrophysiological characteristics of TRPA1 suggest that it might play a unique role in nociception. PMID: 21653898
49. These findings that a short-term application of artemin inhibits the TRPA1 channel's activity and the sequential pain behaviors suggest a role of artemin in regulation of sensory neurons. PMID: 21619614
50. Data show that the TRPA1 activation and upregulation seem to exert an important role in overactive bladder following spinal cord injury. PMID: 21367919

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KEGG: rno:312896

STRING: 10116.ENSRNOP00000009874

UniGene: Rn.105247