Effects of Voluntary Exercise and Acetic Acid Supplementation on Skeletal Muscle Mitochondrial Function in Ovariectomized Mice
Ki-Woong Park, Yoonhwan Kim, Yuan Tan, Byung-Jun Ryu, Seung-Min Lee, Hanall Lee, Byunghun So, Jinhan Park, Junho Jang, Chounghun Kang, Taewan Kim, Jinkyung Cho, Moon-Hyon Hwang, Jae-Geun Kim, Yong Kyung Kim, Young-Min Park

TL;DR
This study explores how exercise and acetic acid affect muscle mitochondria in mice with estrogen deficiency, finding that the combination improves mitochondrial function.
Contribution
The novel finding is that acetic acid supplementation during exercise rescues mitochondrial dysfunction in ovariectomized mice.
Findings
OVX impaired whole-body metabolism and skeletal muscle mitochondrial function.
Exercise alone did not mitigate OVX-induced mitochondrial dysfunction.
Combined acetic acid supplementation and exercise rescued mitochondrial function in OVX mice.
Abstract
Background: Estrogen deficiency following human menopause or rodent ovariectomy (OVX) induces adverse alterations in body composition and metabolic function. This study investigated the combined effects of acetic acid supplementation and voluntary exercise on metabolic health and skeletal muscle mitochondrial function using an OVX mouse model. Methods: Forty female C57BL/6J mice (8 weeks old) were randomly assigned to 5 groups: sham (SHM), ovariectomized control (OVX), OVX with exercise (OVX-E), OVX with acetic acid (OVX-A), and OVX with both interventions (OVX-AE). Following a 1-week recovery from OVX, a 13-week intervention was initiated: 5% sodium acetate-supplemented chow and/or voluntary wheel running. Body composition, glucose tolerance, total energy expenditure, skeletal muscle mitochondrial function, and the contents of AMPKα, PGC-1α, and carbonyl protein were assessed. Results:…
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Taxonomy
TopicsMenopause: Health Impacts and Treatments · Exercise and Physiological Responses · Estrogen and related hormone effects
