Effects of tetraethylammonium-sensitive K+ channel blockade on cholinergic and thermal sweating in endurance-trained and untrained men

Tatsuro Amano; Naoto Fujii; Glen P Kenny; Yumi Okamoto; Yoshimitsu Inoue; Narihiko Kondo

doi:10.1113/EP090251

Effects of tetraethylammonium-sensitive K⁺ channel blockade on cholinergic and thermal sweating in endurance-trained and untrained men

Exp Physiol. 2022 May;107(5):441-449. doi: 10.1113/EP090251. Epub 2022 Apr 6.

Authors

Tatsuro Amano¹, Naoto Fujii², Glen P Kenny³, Yumi Okamoto¹, Yoshimitsu Inoue⁴, Narihiko Kondo⁵

Affiliations

¹ Laboratory for Exercise and Environmental Physiology, Faculty of Education, Niigata University, Niigata, Japan.
² Faculty of Health and Sport Sciences, University of Tsukuba, Tsukuba, Japan.
³ Human and Environmental Physiology Research Unit, University of Ottawa, Ottawa, Canada.
⁴ Laboratory for Human Performance Research, Osaka International University, Osaka, Japan.
⁵ Laboratory for Applied Human Physiology, Graduate School of Human Development and Environment, Kobe University, Kobe, Japan.

PMID: 35340063
DOI: 10.1113/EP090251

Abstract

New findings: What is the central question of this study? Does inhibition of K⁺ channels modulate the exercise-training-induced augmentation in cholinergic and thermal sweating? What is the main finding and its importance? Iontophoretic administration of tetraethylammonium, a K⁺ channel blocker, blunted sweating induced by a low dose (0.001%) of the cholinergic agent pilocarpine, but not heat-induced sweating. However, no differences in the cholinergic sweating were observed between young endurance-trained and untrained men. Thus, while K⁺ channels play a role in the regulation of eccrine sweating, they do not contribute to the increase in sweating commonly observed in endurance-trained adults. Our findings provide important new insights into the mechanisms underlying the regulation of sweating by endurance conditioning.

Abstract: We evaluated the hypothesis that the activation of K⁺ channels mediates the exercise-training-induced augmentation of cholinergic and thermal sweating. On separate days, 11 endurance-trained and 10 untrained men participated in two experimental protocols. Prior to each protocol, we administered 2% tetraethylammonium (TEA, K⁺ channels blocker) and saline (Control) at forearm skin sites on both arms via transdermal iontophoresis. In protocol 1, low (0.001%) and high (1%) doses of pilocarpine were administered at the TEA-treated and Control sites over a 60-min period. In protocol 2, participants were passively heated by immersing their lower limbs in hot water (43°C) until core (rectal) temperature (T_c ) increased by 0.8°C above resting levels. Administration of TEA attenuated cholinergic sweating (P = 0.001) during the initial 20 min after the treatment of low dose of pilocarpine only whilst the response was similar between the groups (P = 0.163). Cholinergic and thermal sweating were higher in the trained relative to the untrained men (all P ≤ 0.033). Thermal sweating reached ∼90% of the response at a T_c elevation of 0.8°C during the initial 20 min of passive heating, which corresponds to the period wherein TEA attenuated cholinergic sweating in protocol 1. However, sweating did not differ between the Control and TEA sites in either group (P = 0.704). We showed that activation of K⁺ channels does not appear to mediate the elevated sweating response induced by a low dose of pilocarpine in trained men. We also demonstrated that K⁺ channels do not contribute to sweating during heat stress in either group.

Keywords: Ca2+-activated K+ channels; exercise training; muscarinic receptor; thermoregulation; voltage-gated K+ channel.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Adult
Cholinergic Agents
Endurance Training*
Humans
Male
Pilocarpine / pharmacology
Sweating*
Tetraethylammonium / pharmacology

Substances

Cholinergic Agents
Pilocarpine
Tetraethylammonium