Insulin and IGF-1 receptors regulate FoxO-mediated signaling in muscle proteostasis
Brian T. O’Neill, … , K. Sreekumaran Nair, C. Ronald Kahn
Brian T. O’Neill, … , K. Sreekumaran Nair, C. Ronald Kahn
Published August 15, 2016
Citation Information: J Clin Invest. 2016;126(9):3433-3446. https://doi.org/10.1172/JCI86522.
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Research Article Endocrinology

Insulin and IGF-1 receptors regulate FoxO-mediated signaling in muscle proteostasis

Abstract

Diabetes strongly impacts protein metabolism, particularly in skeletal muscle. Insulin and IGF-1 enhance muscle protein synthesis through their receptors, but the relative roles of each in muscle proteostasis have not been fully elucidated. Using mice with muscle-specific deletion of the insulin receptor (M-IR–/– mice), the IGF-1 receptor (M-IGF1R–/– mice), or both (MIGIRKO mice), we assessed the relative contributions of IR and IGF1R signaling to muscle proteostasis. In differentiated muscle, IR expression predominated over IGF1R expression, and correspondingly, M-IR–/– mice displayed a moderate reduction in muscle mass whereas M-IGF1R–/– mice did not. However, these receptors serve complementary roles, such that double-knockout MIGIRKO mice displayed a marked reduction in muscle mass that was linked to increases in proteasomal and autophagy-lysosomal degradation, accompanied by a high-protein-turnover state. Combined muscle-specific deletion of FoxO1, FoxO3, and FoxO4 in MIGIRKO mice reversed increased autophagy and completely rescued muscle mass without changing proteasomal activity. These data indicate that signaling via IR is more important than IGF1R in controlling proteostasis in differentiated muscle. Nonetheless, the overlap of IR and IGF1R signaling is critical to the regulation of muscle protein turnover, and this regulation depends on suppression of FoxO-regulated, autophagy-mediated protein degradation.

Authors

Brian T. O’Neill, Kevin Y. Lee, Katherine Klaus, Samir Softic, Megan T. Krumpoch, Joachim Fentz, Kristin I. Stanford, Matthew M. Robinson, Weikang Cai, Andre Kleinridders, Renata O. Pereira, Michael F. Hirshman, E. Dale Abel, Domenico Accili, Laurie J. Goodyear, K. Sreekumaran Nair, C. Ronald Kahn

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Figure 3

Activation of autophagy is increased in MIGIRKO muscle, especially in the fed state.

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Activation of autophagy is increased in MIGIRKO muscle, especially in th...
(A) Western blots for autophagy intermediates in quadriceps from fed or 16-hour-fasted MIGIRKO and control mice treated with either saline or 0.4 mg/kg colchicine for 2 days (the blots are from parallel samples run on separate gels). (BD) Densitometric analysis of p-ULK1S555/ULK1 (B), p62 normalized to GAPDH (C), or ratio of LC3-II/LC3-I (D) from A (n = 3–6 per group). Note samples 4 and 16 are switched in the LC3 Western blot, but correctly identified for densitometry. (E) LC3A (green) and myosin IIa (red) immunostaining of quadriceps from fed MIGIRKO and control mice (scale bar: 20 μm). (F) Quantification of LC3A-positive vesicles per cross-sectional area in type IIa or IIb fibers from quadriceps in E (n = 3 fibers each from 4–5 mice per group). (G) Cathepsin L activity in gastrocnemius lysates (n = 6–8). (*P < 0.05, **P < 0.01 vs. control under same conditions or as specified; P < 0.05, fed vs. fasted, t test for 2 groups, ANOVA for more.)