Photo-Downregulation of SIRT4 Mitigates Aging in Mice by Enhancing H3K9ac via Fatty Acid Metabolism

June 2026 in “ eLife ”

Fangqing Deng, Rong Yang, Xu Li, Jinyun Niu, Zibo Gao, Monian Wang, Yang Liu, Lihua Yang, Huifang Liu, Y Q Yang, Zhaoxiang Yu, Lianbing Zhang

SIRT4 H3K9ac red light therapy fatty acid metabolism keratinocytes glycolysis TCA cycle mitochondrial fatty acid oxidation SIRT1 PPAR-α acetyl-CoA senescence-related genes

TLDR Red light exposure slows aging in mice by improving fat metabolism.

This study demonstrates that periodic exposure to red light can mitigate aging in mice by enhancing histone H3 Lys9 acetylation (H3K9ac) through the modulation of fatty acid metabolism. Red light exposure reduces SIRT4 protein levels in keratinocytes, which activates glycolysis, fatty acid metabolism, and the TCA cycle. The decrease in SIRT4 enhances mitochondrial fatty acid oxidation and activates SIRT1, which in turn alleviates inhibition on PPAR-α, leading to increased expression of lipid metabolism-related genes. This results in the accumulation of acetyl-CoA, increased H3K9ac levels, and altered expression of senescence-related genes, effectively reducing cellular aging through coordinated regulation of metabolism, inflammation, and gene expression.

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