Yifan Chen1, Tianzheng Yu2. 1. Department of Military and Emergency Medicine, Uniformed Services University Bethesda, MD 20814, USA. Electronic address: yifan.chen@usuhs.edu. 2. Department of Military and Emergency Medicine, Uniformed Services University Bethesda, MD 20814, USA.
Abstract
AIMS: Testosterone is implicated as a potential contributing factor to heat-induced injury. We examined effects of testosterone on thermal response of mice to heat exposure. MAIN METHODS: Adult C57BL/6J male mice received gonadectomy or sham surgery subsequent vehicle (Gnx) or testosterone implants (Gnx+T). Body core temperature (Tc) of mice was recorded telemetrically during acute heat exposure. Thermal responses to heat exposure were also examined in age-matched female mice at each stage of the estrous cycle. KEY FINDINGS: Basal Tc was lower in sham male mice than females, but did not differ among sham, Gnx or Gnx+T males. No alterations in expression of uncoupling proteins 2 and 3 in the gastrocnemius muscle were found in either Gnx or Gnx+T mice compared to sham males. During heat exposure, sham male mice had a faster and greater rise in Tc, compared to females. This rapid hyperthermic response to heat was abolished in Gnx males, but not in Gnx+T males. No significant correlation was revealed between peak Tc values and plasma testosterone concentrations in Gnx+T males treated with either low- or high-dose testosterone. No effects of estrous cycle phase on the thermal response to heat exposure were detected in female mice. SIGNIFICANCE: We found that male mice were more susceptible to development of heat-induced hyperthermia than females and this was prevented by castration, not by castration with testosterone replacement. These results suggest that testosterone mediates heat-induced hyperthermia and is a heat stress susceptibility factor.
AIMS: Testosterone is implicated as a potential contributing factor to heat-induced injury. We examined effects of testosterone on thermal response of mice to heat exposure. MAIN METHODS: Adult C57BL/6J male mice received gonadectomy or sham surgery subsequent vehicle (Gnx) or testosterone implants (Gnx+T). Body core temperature (Tc) of mice was recorded telemetrically during acute heat exposure. Thermal responses to heat exposure were also examined in age-matched female mice at each stage of the estrous cycle. KEY FINDINGS: Basal Tc was lower in sham male mice than females, but did not differ among sham, Gnx or Gnx+T males. No alterations in expression of uncoupling proteins 2 and 3 in the gastrocnemius muscle were found in either Gnx or Gnx+T mice compared to sham males. During heat exposure, sham male mice had a faster and greater rise in Tc, compared to females. This rapid hyperthermic response to heat was abolished in Gnx males, but not in Gnx+T males. No significant correlation was revealed between peak Tc values and plasma testosterone concentrations in Gnx+T males treated with either low- or high-dose testosterone. No effects of estrous cycle phase on the thermal response to heat exposure were detected in female mice. SIGNIFICANCE: We found that male mice were more susceptible to development of heat-induced hyperthermia than females and this was prevented by castration, not by castration with testosterone replacement. These results suggest that testosterone mediates heat-induced hyperthermia and is a heat stress susceptibility factor.
Authors: Christian K Garcia; Gerard P Robinson; Bryce J Gambino; Michael T Rua; Orlando Laitano; Thomas L Clanton Journal: PLoS One Date: 2022-10-13 Impact factor: 3.752