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Sexually dimorphic hepatic mitochondrial adaptations to exercise: a mini-review.

Benjamin A KuglerJohn P ThyfaultColin S McCoin
Published in: Journal of applied physiology (Bethesda, Md. : 1985) (2023)
Exercise is a physiological stress that disrupts tissue and cellular homeostasis while enhancing systemic metabolic energy demand mainly through the increased workload of skeletal muscle. Although the extensive focus has been on skeletal muscle adaptations to exercise, the liver senses these disruptions in metabolic energy homeostasis and responds to provide the required substrates to sustain increased demand. Hepatic metabolic flexibility is an energetically costly process that requires continuous mitochondrial production of the cellular currency ATP. To do so, the liver must maintain a healthy functioning mitochondrial pool, attained through well-regulated and dynamic processes. Intriguingly, some of these responses are sex-dependent. This mini-review examines the hepatic mitochondrial adaptations to exercise with a focus on sexual dimorphism.
Keyphrases
  • high intensity
  • skeletal muscle
  • oxidative stress
  • resistance training
  • physical activity
  • insulin resistance
  • metabolic syndrome
  • heat stress