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April 19, 2024
A recent study suggests that exercise could potentially counteract signs of aging by eliminating fat from muscle tissue
A recent study, featured in the journal Nature Aging, has revealed a potential association between a specific type of fat molecule and the aging process.
The research has pinpointed bis(monoacylglycero)phosphate (BMP) as a lipid that tends to accumulate at higher levels in the muscles of older individuals. Interestingly, brief periods of exercise have shown promising results in significantly reducing BMP levels, suggesting a potential avenue for reversing age-related changes in muscle tissue.
Dr. George Janssens, an assistant professor of genetic metabolic disease at Amsterdam UMC, spearheaded the study, which employed advanced lipidomics technology to scrutinize the fats of both young and old mice.
The findings showcased a consistent uptick in BMP levels in aged mice across various tissues, indicating a possible role for this lipid in the aging process.
Further investigation delved into muscle tissue biopsies from human volunteers spanning different age groups. Corresponding to the results in mice, BMP accumulation was evident in aging human muscle tissue, underlining the significance of this lipid in human aging.
Dr. Alexandra Stolzing, a professor of bio-gerontological engineering at Loughborough University, emphasized the rarity of detailed studies on fat molecules and lauded the comprehensive analysis conducted in this study, which explored changes in various tissues in both mice and humans.
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