Intermittent glucocorticoid treatment enhances skeletal muscle performance through sexually dimorphic mechanisms
Isabella M. Salamone, … , Garima Tomar, Elizabeth M. McNally
Isabella M. Salamone, … , Garima Tomar, Elizabeth M. McNally
Published February 10, 2022
Citation Information: J Clin Invest. 2022;132(6):e149828. https://doi.org/10.1172/JCI149828.
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Research Article Endocrinology Muscle biology Article has an altmetric score of 122

Intermittent glucocorticoid treatment enhances skeletal muscle performance through sexually dimorphic mechanisms

Abstract

Glucocorticoid steroids are commonly prescribed for many inflammatory conditions, but chronic daily use produces adverse effects, including muscle wasting and weakness. In contrast, shorter glucocorticoid pulses may improve athletic performance, although the mechanisms remain unclear. Muscle is sexually dimorphic and comparatively little is known about how male and female muscles respond to glucocorticoids. We investigated the impact of once-weekly glucocorticoid exposure on skeletal muscle performance comparing male and female mice. One month of once-weekly glucocorticoid dosing improved muscle specific force in both males and females. Transcriptomic profiling of isolated myofibers identified a striking sexually dimorphic response to weekly glucocorticoids. Male myofibers had increased expression of genes in the IGF1/PI3K pathway and calcium handling, while female myofibers had profound upregulation of lipid metabolism genes. Muscles from weekly prednisone–treated males had improved calcium handling, while comparably treated female muscles had reduced intramuscular triglycerides. Consistent with altered lipid metabolism, weekly prednisone–treated female mice had greater endurance relative to controls. Using chromatin immunoprecipitation, we defined a sexually dimorphic chromatin landscape after weekly prednisone. These results demonstrate that weekly glucocorticoid exposure elicits distinct pathways in males versus females, resulting in enhanced performance.

Authors

Isabella M. Salamone, Mattia Quattrocelli, David Y. Barefield, Patrick G. Page, Ibrahim Tahtah, Michele Hadhazy, Garima Tomar, Elizabeth M. McNally

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Figure 2

Daily and weekly prednisone treatment elicited similar transcriptional profiles with differential atrogene activation.

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Daily and weekly prednisone treatment elicited similar transcriptional p...
(A) RNA sequencing analysis of daily prednisone–treated muscles (quadriceps) compared with vehicle-treated for both sexes; prednisone-responsive genes were identified as being above expression and fold-change thresholds and below a variation threshold; n = 3 animals per group. (B) Less than half of all prednisone-responsive genes were shared among daily prednisone–treated males and females. (C) The majority of prednisone-responsive genes above a log2(fold change) threshold had the same response to both daily and weekly treatment, i.e., increased (quadrant 2) or decreased (quadrant 4) expression. (D) Expression of atrogenes Fbxo32 and Trim63 was increased in daily treated muscle fibers compared with vehicle, as evaluated by qPCR and 1-way ANOVA, while weekly treated muscle fibers had no change in expression of these atrogenes. (E) Expression of genes encoding the mitochondrial respiratory chain was decreased in response to daily treatment in both sexes compared with vehicle treatment.