Effect of high-altitude exposure on skeletal muscle mitochondrial subcellular distribution, ultrastructure, and respiration in sea-level residents

  1. Camilla Tvede Schytz
  2. Joachim Nielsen
  3. Niels Ørtenblad
  4. Anne-Kristine Meinild Lundby
  5. Robert Acton Jacobs
  6. Carsten Lundby
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Abstract

Skeletal muscle mitochondrial networks may adapt to high altitude by improving respiratory efficiency. We show that despite an increased mitochondrial volume density following a 28-day sojourn at 3,454 m, the surface area of the infoldings of the inner mitochondrial membrane (cristae) decreased within the muscle fiber due to a decline in the mitochondrial cristae density. However, respiration per cristae surface area increased following 7 and 28 days, suggesting intrinsic adjustments.

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  1. Version published to 10.1152/japplphysiol.00042.2025
  2. Version published to 10.1101/2024.10.11.617733 on bioRxiv