Foremost among the ion channels that control vascular tone is the transient receptor potential (TRP) cation channels. The TRPM subfamily of the TRP channels includes eight members, expressed in various excitable and non-excitable cells and involved in diverse functions, such as sensing membrane potential, cold, taste, redox, osmolarity, and cell survival. Previous analysis of TRPM gene expression showed the highest expression of TRPM8 in intact blood vessels compared with other isoforms (TRPM1-7). Studies have also revealed that activating TRPM8 by menthol and icilin modulates endothelium-dependent and independent vascular reactivity. However, the non-selectivity of pharmacological TRPM8 modulators constitutes a significant limitation in the prior studies aimed at delineating TRPM8-dependent vasoregulation. In this study, we demonstrate that acetylcholine (ACH)- and sodium nitroprusside (SNP)-induced reduction in arterial pressure was unaltered in mice lacking TRPM8. We generated endothelial-specific knockout (KO) of TRPM8 (ecTRPM8-/-) by breeding TRPM8 floxed (TRPM8fl/fl) with Cdh5-Cre (VE-Cadherin-Cre) mice. Unlike global TRPM8 KO, ecTRPM8-/- mice were not resistant to cold temperatures. Phenylephrine-induced contraction of renal and mesenteric arteries isolated from TRPM8fl/fl and ecTRPM8-/- mice were similar. Also, ACH- and SNP-induced relaxation of phenylephrine-precontracted renal and mesenteric arteries from TRPM8fl/fl and ecTRPM8-/- mice were comparable. These findings suggest that TRPM8 channels do not regulate endothelium-dependent and -independent vasorelaxation in mice. Disclosure of Funding: NHLBI: R01 HL151735-01 and R01HL151735-S This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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