GADD45A is a mediator of mitochondrial loss, atrophy, and weakness in skeletal muscle
George R. Marcotte, Matthew J. Miller, Hawley E. Kunz, Zachary C. Ryan, Matthew D. Strub, Patrick M. Vanderboom, Carrie J. Heppelmann, Sarah Chau, Zachary D. Von Ruff, Sean P. Kilroe, Andrew T. McKeen, Jason M. Dierdorff, Jennifer I. Stern, Karl A. Nath, Chad E. Grueter, Vitor A. Lira, Andrew R. Judge, Blake B. Rasmussen, K. Sreekumaran Nair, Ian R. Lanza, Scott M. Ebert, Christopher M. Adams
George R. Marcotte, Matthew J. Miller, Hawley E. Kunz, Zachary C. Ryan, Matthew D. Strub, Patrick M. Vanderboom, Carrie J. Heppelmann, Sarah Chau, Zachary D. Von Ruff, Sean P. Kilroe, Andrew T. McKeen, Jason M. Dierdorff, Jennifer I. Stern, Karl A. Nath, Chad E. Grueter, Vitor A. Lira, Andrew R. Judge, Blake B. Rasmussen, K. Sreekumaran Nair, Ian R. Lanza, Scott M. Ebert, Christopher M. Adams
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Research Article Metabolism Muscle biology

GADD45A is a mediator of mitochondrial loss, atrophy, and weakness in skeletal muscle

Abstract

Aging and many illnesses and injuries impair skeletal muscle mass and function, but the molecular mechanisms are not well understood. To better understand the mechanisms, we generated and studied transgenic mice with skeletal muscle–specific expression of growth arrest and DNA damage inducible α (GADD45A), a signaling protein whose expression in skeletal muscle rises during aging and a wide range of illnesses and injuries. We found that GADD45A induced several cellular changes that are characteristic of skeletal muscle atrophy, including a reduction in skeletal muscle mitochondria and oxidative capacity, selective atrophy of glycolytic muscle fibers, and paradoxical expression of oxidative myosin heavy chains despite mitochondrial loss. These cellular changes were at least partly mediated by MAP kinase kinase kinase 4, a protein kinase that is directly activated by GADD45A. By inducing these changes, GADD45A decreased the mass of muscles that are enriched in glycolytic fibers, and it impaired strength, specific force, and endurance exercise capacity. Furthermore, as predicted by data from mouse models, we found that GADD45A expression in skeletal muscle was associated with muscle weakness in humans. Collectively, these findings identify GADD45A as a mediator of mitochondrial loss, atrophy, and weakness in mouse skeletal muscle and a potential target for muscle weakness in humans.

Authors

George R. Marcotte, Matthew J. Miller, Hawley E. Kunz, Zachary C. Ryan, Matthew D. Strub, Patrick M. Vanderboom, Carrie J. Heppelmann, Sarah Chau, Zachary D. Von Ruff, Sean P. Kilroe, Andrew T. McKeen, Jason M. Dierdorff, Jennifer I. Stern, Karl A. Nath, Chad E. Grueter, Vitor A. Lira, Andrew R. Judge, Blake B. Rasmussen, K. Sreekumaran Nair, Ian R. Lanza, Scott M. Ebert, Christopher M. Adams

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Figure 6

GADD45A reduces oxidative capacity in glycolytic and oxidative skeletal muscle fibers.

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GADD45A reduces oxidative capacity in glycolytic and oxidative skeletal ...
Quadriceps and TA muscles from 15-month-old male littermate control and GADD45A-mTg mice were cryosectioned. Muscle cross sections were stained for succinate dehydrogenase (SDH) activity and then labeled with antibodies targeting MyHC isoforms and laminin. Cross sections were then imaged by bright-field and fluorescence microscopy to capture SDH activity and immunostaining, respectively. Captured images were then overlaid, and SDH activity and MyHC expression were quantitated in every fiber in the muscle, in order to determine SDH activity as a function of MyHC expression, as further illustrated in Supplemental Figure 7. (A) Quantification of MyHC expression versus SDH activity in quadriceps. (B) Representative SDH and MyHC/laminin stains of quadriceps cross sections from littermate control and GADD45A-mTg mice. (C) Quantification of MyHC and laminin expression versus SDH activity in TA. (D) Representative SDH and MyHC/laminin stains of TA cross sections from littermate control and GADD45A-mTg mice. In A and C, each data point represents the mean value from 1 muscle, bars indicate mean values from each group, and P values were determined with unpaired 2-tailed t tests.