Cell Death and Disease (Jan 2024)

The mitochondrial ATP-dependent potassium channel (mitoKATP) controls skeletal muscle structure and function

  • Giulia Di Marco,
  • Gaia Gherardi,
  • Agnese De Mario,
  • Ilaria Piazza,
  • Martina Baraldo,
  • Andrea Mattarei,
  • Bert Blaauw,
  • Rosario Rizzuto,
  • Diego De Stefani,
  • Cristina Mammucari

DOI
https://doi.org/10.1038/s41419-024-06426-x
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract MitoKATP is a channel of the inner mitochondrial membrane that controls mitochondrial K+ influx according to ATP availability. Recently, the genes encoding the pore-forming (MITOK) and the regulatory ATP-sensitive (MITOSUR) subunits of mitoKATP were identified, allowing the genetic manipulation of the channel. Here, we analyzed the role of mitoKATP in determining skeletal muscle structure and activity. Mitok −/− muscles were characterized by mitochondrial cristae remodeling and defective oxidative metabolism, with consequent impairment of exercise performance and altered response to damaging muscle contractions. On the other hand, constitutive mitochondrial K+ influx by MITOK overexpression in the skeletal muscle triggered overt mitochondrial dysfunction and energy default, increased protein polyubiquitination, aberrant autophagy flux, and induction of a stress response program. MITOK overexpressing muscles were therefore severely atrophic. Thus, the proper modulation of mitoKATP activity is required for the maintenance of skeletal muscle homeostasis and function.