Neuroprotective effects of testosterone on sevoflurane-induced neurotoxicity in testosterone-deprived male mice.

Abstract

This study aims to investigate whether androgen deprivation, simulating conditions of aging or disease-induced low testosterone levels, increases the susceptibility of male mice to sevoflurane neurotoxicity, and whether testosterone supplementation can reverse the toxic effects of sevoflurane. In here, young male mice were subjected to orchiectomy (ORC) to induce testosterone deprivation. Various techniques, including western blotting, immunofluorescence, Morris Water Maze, Golgi staining, and neuronal signal measurement, were used to evaluate the effects of sevoflurane on long-term (ORC 10 weeks) and short-term (ORC 2 weeks) testosterone deprivation, and assess whether testosterone (1 mg/kg 1 h before sevoflurane exposure) could mitigate sevoflurane-induced neurotoxicity. Flutamide and anastrozole were administered to study testosterone's pathways of action. We found that sevoflurane increased tau phosphorylation and decreased the transient amplitude of Ca²⁺ signals and dendritic spine density in dorsal hippocampal CA1 (dCA1) neurons, leading to cognitive impairment in testosterone-deprived male mice. Testosterone treatment reversed the effects of sevoflurane in short-term testosterone-deprived male mice, but not in long-term testosterone-deprived male mice. Additionally, the neuroprotective effect of testosterone was blocked by flutamide rather than anastrozole. We have discovered for the first time that testosterone can mitigate the sevoflurane-induced neurotoxicity in testosterone-deprived male mice and that there exists a therapeutic time window, which may be mediated by androgen receptors. This may provide new insights into the neuroprotective role of sex hormones.