Skeletal muscle myostatin mRNA expression is upregulated in aged human adults with excess adiposity, but is not associated with insulin resistance and ageing

Andrew Wilhelmsen, Francis B. Stephens, Andrew J Bennett, Leonidas G. Karagounis, Simon Jones, Kostas Tsintzas*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Myostatin negatively regulates skeletal muscle growth and appears upregulated in human obesity and associated with insulin resistance. However, observations are confounded by ageing, and the mechanisms responsible are unknown. The aim of this study was to delineate between the effects of excess adiposity, insulin resistance and ageing on myostatin mRNA expression in human skeletal muscle and to investigate causative factors using in vitro models. An in vivo cross-sectional analysis of human skeletal muscle was undertaken to isolate effects of excess adiposity and ageing per se on myostatin expression. In vitro studies employed human primary myotubes to investigate the potential involvement of cross-talk between subcutaneous adipose tissue (SAT) and skeletal muscle, and lipid-induced insulin resistance. Skeletal muscle myostatin mRNA expression was greater in aged adults with excess adiposity than age-matched adults with normal adiposity (2.0-fold higher; P < 0.05) and occurred concurrently with altered expression of genes involved in the maintenance of muscle mass but did not differ between younger and aged adults with normal adiposity. Neither chronic exposure to obese SAT secretome nor acute elevation of fatty acid availability (which induced insulin resistance) replicated the obesity-mediated upregulation of myostatin mRNA expression in vitro. In conclusion, skeletal muscle myostatin mRNA expression is uniquely upregulated in aged adults with excess adiposity and insulin resistance but not by ageing alone. This does not appear to be mediated by the SAT secretome or by lipid-induced insulin resistance. Thus, factors intrinsic to skeletal muscle may be responsible for the obesity-mediated upregulation of myostatin, and future work to establish causality is required.
Original languageEnglish
JournalGeroScience
Early online date6 Oct 2023
DOIs
Publication statusE-pub ahead of print - 6 Oct 2023

Bibliographical note

Funding:
This research was funded by the MRC Versus Arthritis Centre for Musculoskeletal Ageing Research.

Keywords

  • Myostatin
  • Insulin resistance
  • Skeletal muscle
  • Primary human myotubes
  • Obesity
  • Ageing

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