Astaxanthin Protects Against Heat-induced Mitochondrial Alterations in Mouse Hypothalamus

The hypothalamus plays an essential role in regulating whole-body energy and temperature homeostasis when adapting to environmental changes. We previously reported that heat exposure causes mitochondrial dysfunction and apoptosis in mouse skeletal muscle, and pretreatment with astaxanthin (AST), an antioxidant, prevents this effect. How the hypothalamus responds to heat stress remains largely unexplored. In this study, we investigated the effects of heat exposure on hypothalamic mitochondria in mice with and without AST pretreatment. During heat exposure, both vehicle and AST-treated mice had a hyperthermic response though no significant differences in peak core body temperature were noted between the two groups. Heat exposure induced mitochondrial fission in the hypothalamus, as manifested by increased mitochondrial fragmentation and expression of both total and phosphorylated dynamin-related protein 1. In addition, transmission electron microscopy revealed damaged and degraded mitochondria in the hypothalamus of heat-exposed mice. Heat induced apoptosis and mitophagy were further confirmed by increased formation of reactive oxygen species, activation of caspase 3/7 and expression of LC3 proteins. Moreover, heat exposure increased the expression of PINK1 and Parkin in mouse hypothalamus. In contrast, pretreatment with AST reduced these effects. These results demonstrate that heat stress-induced hypothalamic apoptosis is associated with altered mitochondrial dynamics favoring fission and mitophagy. AST protects the hypothalamus against heat-induced injury by preserving redox homeostasis and mitochondrial integrity.