Literature DB >> 26437602

Global Phosphoproteomic Analysis of Human Skeletal Muscle Reveals a Network of Exercise-Regulated Kinases and AMPK Substrates.

Nolan J Hoffman1, Benjamin L Parker1, Rima Chaudhuri1, Kelsey H Fisher-Wellman2, Maximilian Kleinert3, Sean J Humphrey2, Pengyi Yang4, Mira Holliday1, Sophie Trefely2, Daniel J Fazakerley1, Jacqueline Stöckli1, James G Burchfield1, Thomas E Jensen5, Raja Jothi6, Bente Kiens5, Jørgen F P Wojtaszewski5, Erik A Richter5, David E James7.   

Abstract

Exercise is essential in regulating energy metabolism and whole-body insulin sensitivity. To explore the exercise signaling network, we undertook a global analysis of protein phosphorylation in human skeletal muscle biopsies from untrained healthy males before and after a single high-intensity exercise bout, revealing 1,004 unique exercise-regulated phosphosites on 562 proteins. These included substrates of known exercise-regulated kinases (AMPK, PKA, CaMK, MAPK, mTOR), yet the majority of kinases and substrate phosphosites have not previously been implicated in exercise signaling. Given the importance of AMPK in exercise-regulated metabolism, we performed a targeted in vitro AMPK screen and employed machine learning to predict exercise-regulated AMPK substrates. We validated eight predicted AMPK substrates, including AKAP1, using targeted phosphoproteomics. Functional characterization revealed an undescribed role for AMPK-dependent phosphorylation of AKAP1 in mitochondrial respiration. These data expose the unexplored complexity of acute exercise signaling and provide insights into the role of AMPK in mitochondrial biochemistry.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26437602      PMCID: PMC4635038          DOI: 10.1016/j.cmet.2015.09.001

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


  48 in total

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