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  2. Histone β-hydroxybutyrylation is critical in reversal of sarcopenia

Histone β-hydroxybutyrylation is critical in reversal of sarcopenia

  • Aging Cell. 2024 Jul 30:e14284. doi: 10.1111/acel.14284.
Qiquan Wang 1 Xinqiang Lan 1 Hao Ke 1 Siman Xu 1 Chunping Huang 1 Jiali Wang 1 Xiang Wang 1 Tiane Huang 1 Xia Wu 1 Mengxin Chen 1 Yingqi Guo 2 Lin Zeng 2 Xiao-Li Tian 3 Yang Xiang 1
Affiliations

Affiliations

  • 1 Metabolic Control and Aging, Human Aging Research Institute and School of Life Science, Nanchang University, and Jiangxi Key Laboratory of Aging and Diseases, Nanchang, China.
  • 2 Institutional Center for Shared Technologies and Facilities of the Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming, China.
  • 3 Aging and Vascular Diseases, Human Aging Research Institute and School of Life Science, Nanchang University, and Jiangxi Key Laboratory of Aging and Diseases, Nanchang, China.
Abstract

Sarcopenia, a leading cause for global disability and mortality, is an age-related muscular disorder, characterized by accelerated muscle mass loss and functional decline. It is known that caloric restriction (CR), ketogenic diet or endurance exercise lessen sarcopenia and elevate circulating β-hydroxybutyrate (β-HB) levels. Whether the elevated β-HB is essential to the reversal of sarcopenia, however, remains unclear. Here we show in both Caenorhabditis elegans and mouse models that an increase of β-HB reverse myofiber atrophy and improves motor functions at advanced ages. β-HB-induced histone lysine β-hydroxybutyrylation (Kbhb) is indispensable for the reversal of sarcopenia. Histone Kbhb enhances transcription of genes associated with mitochondrial pathways, including Oxidative Phosphorylation, ATP metabolic process and aerobic respiration. This ultimately leads to improve mitochondrial integrity and enhance mitochondrial respiration. The histone Kbhb are validated in mouse model with CR. Thus, we demonstrate that β-HB induces histone Kbhb, increases mitochondrial function, and reverses sarcopenia.

Keywords

mitochondria; sarcopenia; skeletal muscle; β‐hydroxybutyrate; β‐hydroxybutyrylation.

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