Retinoic acid exerts sexually dimorphic effects over muscle energy metabolism and function

Author:

Zhao Yaxin,Vuckovic Marta,Yoo Hong Sik,Fox Nina,Rodriguez Adrienne,McKessy KylerORCID,Napoli Joseph L.ORCID

Abstract

AbstractThe retinol dehydrogenase Rdh10 catalyzes the rate-limiting reaction that converts retinol into retinoic acid (RA), an autacoid that regulates energy balance and suppresses adiposity. Relative to WT, Rdh10+/− males experienced reduced fatty-acid oxidation, glucose intolerance and insulin resistance. Running endurance decreased 40%. Rdh10+/− females increased reliance on fatty acid oxidation and did not experience glucose intolerance nor insulin resistance. Running endurance improved 2.2-fold. Estrogen increased, revealed by a 40% increase in uterine weight. Because skeletal muscle energy use restricts adiposity and insulin resistance, we assessed the mixed fiber type gastrocnemius muscle (GM) to determine the effects of endogenous RA on muscle metabolism in vivo. RA in Rdh10+/− male GM decreased 38% relative to WT. TAG content increased 1.7-fold. Glut1 mRNA and glucose decreased >30%. Rdh10+/− male GM had impaired electron transport chain activity, and a 60% reduction in fasting ATP. The share of oxidative fibers increased, as did expression of the myogenic transcription factors Myog and Myf5. Centralized nuclei increased 5-fold in fibers—indicating muscle malady or repair. In Rdh10+/− female GM, RA decreased only 17%, due to a 1.8-fold increase in the estrogen-induced retinol dehydrogenase, Dhrs9. Rdh10+/− female GM did not amass TAG, increase oxidative fibers, decrease Glut1 mRNA or glucose, nor increase centralized nuclei. Expression of Myog and Myf5 decreased. Electron transport chain activity increased, elevating fasting ATP >3-fold. Thus, small decreases in skeletal muscle RA affect whole body energy use, insulin resistance and adiposity, in part through estrogen-related sexual dimorphic effects on mitochondria function.

Publisher

Cold Spring Harbor Laboratory

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