Muscle-specific ER-associated degradation maintains postnatal muscle hypertrophy and systemic energy metabolism
Benedict Abdon, Yusheng Liang, Débora da Luz Scheffer, Mauricio Torres, Neha Shrestha, Rachel B. Reinert, You Lu, Brent Pederson, Amara Bugarin-Lapuz, Sander Kersten, Ling Qi
Benedict Abdon, Yusheng Liang, Débora da Luz Scheffer, Mauricio Torres, Neha Shrestha, Rachel B. Reinert, You Lu, Brent Pederson, Amara Bugarin-Lapuz, Sander Kersten, Ling Qi
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Research Article Cell biology Muscle biology

Muscle-specific ER-associated degradation maintains postnatal muscle hypertrophy and systemic energy metabolism

Abstract

The growth of skeletal muscle relies on a delicate equilibrium between protein synthesis and degradation; however, how proteostasis is managed in the endoplasmic reticulum (ER) is largely unknown. Here, we report that the SEL1L-HRD1 ER-associated degradation (ERAD) complex, the primary molecular machinery that degrades misfolded proteins in the ER, is vital to maintain postnatal muscle growth and systemic energy balance. Myocyte-specific SEL1L deletion blunts the hypertrophic phase of muscle growth, resulting in a net zero gain of muscle mass during this developmental period and a 30% reduction in overall body growth. In addition, myocyte-specific SEL1L deletion triggered a systemic reprogramming of metabolism characterized by improved glucose sensitivity, enhanced beigeing of adipocytes, and resistance to diet-induced obesity. These effects were partially mediated by the upregulation of the myokine FGF21. These findings highlight the pivotal role of SEL1L-HRD1 ERAD activity in skeletal myocytes for postnatal muscle growth, and its physiological integration in maintaining whole-body energy balance.

Authors

Benedict Abdon, Yusheng Liang, Débora da Luz Scheffer, Mauricio Torres, Neha Shrestha, Rachel B. Reinert, You Lu, Brent Pederson, Amara Bugarin-Lapuz, Sander Kersten, Ling Qi

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Figure 6

SEL1L deletion results in extensive ER remodeling in muscle.

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SEL1L deletion results in extensive ER remodeling in muscle. (A and B) R...
(A and B) Representative TEM images of WT (A) and Sel1LMLC (B) EDL muscle in longitudinal and cross-sectional planes (n = 3 mice per genotype). Orange boxes indicate low-magnification inset. Yellow arrows indicate regions of expanded ER/SR membranes. N, nucleus; M, mitochondria. (C) Representative image of EDL at the A-I band junction. Blue shades mark the ER. (D) Frequency (%) of individual intermyofibrillar SR/ER membrane area (n = 3 per genotype). Blue overlay in C is representative of regions of interest chosen for quantitation. (E and F) Representative TEM images of perinuclear (E) and subsarcolemmal regions (F) in EDL muscle. SM, sarcolemma membrane; N, nucleus. Data presented as mean ± SEM. *P < 0.05 determined by 2-tailed, unpaired t test (D).