Menstrual cycle influence on skeletal muscle mitochondrial respiration in humans

Menstrual cycle influence on skeletal muscle mitochondrial respiration in humans

Abstract The menstrual cycle influences function in various tissues in the body. We sought to determine if menstrual cycle phase could influence mitochondrial function in skeletal muscle in females. Twenty‐nine females with regular menstrual cycles were randomized to have a vastus lateralis muscle b...

Full description

Saved in:
Bibliographic Details
Main Authors: W. Bradley Nelson, Brandon S. Pfeifer, Ashley R. Lovell, Erik D. Marchant, Briell V. Mitchell, Erin L. Atkinson, Trevor L. Murphy, Sydney L. Poulsen, Jay R. K. Baird, Chad R. Hancock, Robert D. Hyldahl
Format: Article
Language:English
Published: Wiley 2025-07-01
Series:Physiological Reports
Subjects:
menstrual cycle phase
mitochondrial respiration
skeletal muscle
Online Access:https://doi.org/10.14814/phy2.70458
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Abstract The menstrual cycle influences function in various tissues in the body. We sought to determine if menstrual cycle phase could influence mitochondrial function in skeletal muscle in females. Twenty‐nine females with regular menstrual cycles were randomized to have a vastus lateralis muscle biopsy during either the early follicular or luteal phase. High‐resolution respirometry was used to determine mitochondrial respiration on permeabilized muscle fibers. Glutamate/malate LEAK respiration was significantly higher during the luteal phase compared to the early follicular phase. Glutamate/malate/succinate LEAK respiration was the same during both menstrual cycle phases, as was maximal coupled and uncoupled respiration. There were no differences in fatty acid‐supported respiration. The fatty acid‐supported coupling efficiency ratios of 1‐OcM (octanoylcarnitine/malate) LEAK over maximal coupled respiration and 1‐OcM LEAK over maximal uncoupled respiration were both significantly higher in mitochondria from the early follicular phase than in the luteal phase. Mitochondrial H2O2 emission (glutamate/malate/succinate supported) was significantly increased in muscle from the early follicular phase. We detected no differences in mitochondrial content using citrate synthase activity between phases of the menstrual cycle. Collectively, our observations demonstrate a limited influence of the menstrual cycle on certain measures of submaximal respiration, coupling efficiencies, and H2O2 emission.
ISSN:2051-817X

Similar Items