Abstract
The retinol dehydrogenase Rdh10 catalyzes the rate-limiting reaction that converts retinol into retinoic acid (RA), an autacoid that regulates energy balance and reduces adiposity. Skeletal muscle contributes to preventing adiposity, by consuming nearly half the energy of a typical human. We report sexually dimorphic differences in energy metabolism and muscle function in Rdh10+/− mice. Relative to wild-type (WT) controls, Rdh10+/− males fed a high-fat diet decrease reliance on fatty-acid oxidation and experience glucose intolerance and insulin resistance. Running endurance decreases 40%. Rdh10+/− females fed this diet increase fatty acid oxidation and experience neither glucose intolerance nor insulin resistance. Running endurance increases 220%. We therefore assessed RA function in the mixed-fiber type gastrocnemius muscles (GM), which contribute to running, rather than standing, and are similar to human GM. RA levels in Rdh10+/− male GM decrease 38% relative to WT. Rdh10+/− male GM increase expression of Myog and reduce Eif6 mRNAs, which reduce and enhance running endurance, respectively. Cox5A, complex IV activity, and ATP decrease. Increased centralized nuclei reveal existence of muscle malady and/or repair in GM fibers. Comparatively, RA in Rdh10+/− female GM decreases by less than half the male decrease, from a more modest decrease in Rdh10 and an increase in the estrogen-induced retinol dehydrogenase Dhrs9. Myog mRNA decreases. Cox5A, complex IV activity, and ATP increase. Centralized GM nuclei do not increase. We conclude that Rdh10/RA affects whole body energy use and insulin resistance partially through sexual dimorphic effects on skeletal muscle gene expression, structure, and mitochondria activity.
Highlights
Either retinol or β-carotene [5,6,7,8]
These results provide new insight into the physiological functions of Rdh10, sex differences in retinoic acid (RA) biosynthesis, and actions related to energy use, insulin resistance, and muscle function
Rdh10+/− males fed a purified high-fat diet (HFD) from weaning endure glucose intolerance and insulin resistance, but females were not assessed [20]
Summary
Either retinol (vitamin A) or β-carotene [5,6,7,8]. As many as eight retinol dehydrogenases and reductases, of the shortchain dehydrogenase/reductase gene family, catalyze conversion of retinol into retinal, and retinal into retinol [9]. Consistent with partially overlapping contributions to RA homeostasis, reducing expression of one reductase/dehydrogenase can provoke compensation by others These observations prompt questions about the needs for and functions of so many enzymes dedicated to RA homeostasis. Pharmacological dosing with RARγ agonists stimulates skeletal muscle repair and reduces extent of fatty fibrotic tissue lesions in a muscle injury model [32] It exerts crucial actions during muscle development and repair, little has been revealed about RA function on muscle performance in vivo. RA decreased in Rdh10+/ − female GM less than half the male decrease, likely due to compensation by Dhrs9 These results provide new insight into the physiological functions of Rdh, sex differences in RA biosynthesis, and actions related to energy use, insulin resistance, and muscle function
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