Macrophage metabolic rewiring rejuvenates muscle Raman signatures and cellular remodeling during regrowth in aged mice
Zachary J. Fennel, Negar Kosari, Paul-Emile Bourrant, Elena M. Yee, Robert J. Castro, Anu S. Kurian, Jonathan Palmer, Morgan Christensen, Katsuhiko Funai, Ryan M. O’Connell, Anhong Zhou, Micah J. Drummond

TL;DR
Old mice showed improved muscle recovery after macrophage metabolic changes via hypoxia, matching young mice's performance.
Contribution
Transient hypoxia rejuvenates aged macrophages, enhancing muscle recovery through metabolic rewiring.
Findings
Hypoxia-treated macrophages improved muscle cellular remodeling in aged mice.
Muscle Raman signatures in aged mice were restored to young levels after treatment.
Intramuscular delivery of hypoxia-treated macrophages mimicked whole-body hypoxia effects.
Abstract
Impaired muscle regrowth in aging is underpinned by reduced proinflammatory macrophage function and subsequently impaired muscle cellular remodeling. Macrophage phenotype is metabolically controlled through TCA intermediate accumulation and activation of HIF1A. We hypothesized that transient hypoxia following disuse in old mice would enhance macrophage metabolic inflammatory function, thereby improving muscle cellular remodeling and recovery. Old (20 months) and young adult mice (4 months) were exposed to acute (24 hour) normobaric hypoxia immediately following 14 days of hind limb unloading and assessed during early reambulation (4 and 7 days) compared to age-matched controls. Treated aged mice had improved proinflammatory macrophage profiles, muscle cellular remodeling, and functional muscle recovery to the levels of young control mice. Likewise, young adult mice had enhanced muscle…
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Taxonomy
TopicsMuscle Physiology and Disorders · Exercise and Physiological Responses · Muscle metabolism and nutrition
