Disruptions to the limb muscle core molecular clock coincide with changes in mitochondrial quality control following androgen depletion.

Autor: Rossetti, Michael L., Esser, Karyn A., Choogon Lee, Tomko, Robert J., Eroshkin, Alexey M., Gordon, Bradley S.
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Zdroj: American Journal of Physiology: Endocrinology & Metabolism; Oct2019, Vol. 317 Issue 4, pE631-E645, 15p
Abstrakt: Androgen depletion in humans leads to significant atrophy of the limb muscles. However, the pathways by which androgens regulate limb muscle mass are unclear. Our laboratory previously showed that mitochondrial degradation was related to the induction of autophagy and the degree of muscle atrophy following androgen depletion, implying that decreased mitochondrial quality contributes to muscle atrophy. To increase our understanding of androgen-sensitive pathways regulating decreased mitochondrial quality, total RNA from the tibialis anterior of sham and castrated mice was subjected to microarray analysis. Using this unbiased approach, we identified significant changes in the expression of genes that compose the core molecular clock. To assess the extent to which androgen depletion altered the limb muscle clock, the tibialis anterior muscles from sham and castrated mice were harvested every 4 h throughout a diurnal cycle. The circadian expression patterns of various core clock genes and known clock-controlled genes were disrupted by castration, with most genes exhibiting an overall reduction in phase amplitude. Given that the core clock regulates mitochondrial quality, disruption of the clock coincided with changes in the expression of genes involved with mitochondrial quality control, suggesting a novel mechanism by which androgens may regulate mitochondrial quality. These events coincided with an overall increase in mitochondrial degradation in the muscle of castrated mice and an increase in markers of global autophagy-mediated protein breakdown. In all, these data are consistent with a novel conceptual model linking androgen depletioninduced limb muscle atrophy to reduced mitochondrial quality control via disruption of the molecular clock. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index