1. TRPA1 Channel Activation With Cinnamaldehyde Induces Cutaneous Vasodilation Through NOS, but Not COX and KCa Channel, Mechanisms in Humans
- Author
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Kataoka, Yufuko, Kenny, Glen P., Nishiyasu, Takeshi, Amano, Tatsuro, Mündel, Toby, Zheng, Huixin, Lei, Tze-Huan, Watanabe, Koichi, and Fujii, Naoto
- Abstract
Supplemental Digital Content is Available in the Text.Transient receptor potential ankyrin 1 (TRPA1) channel activation induces cutaneous vasodilation in humans in vivo. However, the mechanisms underlying this response remains equivocal. We hypothesized that nitric oxide synthase (NOS) and Ca2+activated K+(KCa) channels contribute to the TRPA1 channel–induced cutaneous vasodilation with no involvement of cyclooxygenase (COX). Cutaneous vascular conductance (CVC) in 9 healthy young adults was assessed at 4 dorsal forearm skin sites treated by intradermal microdialysis with (1) 1.985% dimethyl sulfoxide + 0.015% lactated Ringer solution with propylene glycol (vehicle control), (2) 10 mM l-NAME, a nonselective NOS inhibitor, (3) 10 mM ketorolac, a nonselective COX inhibitor, or (4) 50 mM tetraethylammonium, a nonselective KCa channel blocker. Cinnamaldehyde, a TRPA1 channel activator, was administered to each skin site in a dose-dependent manner (2.9%, 8.8%, 26%, and 80%, each lasting ≥30 minutes). Administration of ≥8.8% cinnamaldehyde increased CVC from baseline at the vehicle control site by as much as 27.4% (95% confidence interval of 5.3; P< 0.001). NOS inhibitor attenuated the cinnamaldehyde-induced increases in CVC at the 8.8%, 26%, and 80% concentrations relative to the vehicle control site (all P≤ 0.05). In contrast, both the COX inhibitor and KCa channel blockers did not attenuate the cinnamaldehyde induced-increases in CVC relative to the vehicle control site for all concentrations (all P≥ 0.130). We conclude that in human skin in vivo, NOS plays a role in modulating the regulation of cutaneous vasodilation in response to TRPA1 channel activation with no detectable contributions of COX and KCa channels.
- Published
- 2022
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