Targeted Bmal1 restoration in muscle prolongs lifespan with systemic health effects in aging model
Miguel A. Gutierrez-Monreal, … , Fabio Demontis, Karyn A. Esser
Miguel A. Gutierrez-Monreal, … , Fabio Demontis, Karyn A. Esser
Published October 1, 2024
Citation Information: JCI Insight. 2024;9(22):e174007. https://doi.org/10.1172/jci.insight.174007.
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Research Article Muscle biology

Targeted Bmal1 restoration in muscle prolongs lifespan with systemic health effects in aging model

Abstract

Disruption of the circadian clock in skeletal muscle worsens local and systemic health, leading to decreased muscle strength, metabolic dysfunction, and aging-like phenotypes. Whole-body knockout mice that lack Bmal1, a key component of the molecular clock, display premature aging. Here, by using adeno-associated viruses, we rescued Bmal1 expression specifically in the skeletal muscle fibers of Bmal1-KO mice and found that this engaged the circadian clock and clock output gene expression, contributing to extended lifespan. Time course phenotypic analyses found that muscle strength, mobility, and glucose tolerance were improved with no effects on muscle mass or fiber size or type. A multiomics approach at 2 ages further determined that restored muscle Bmal1 improved glucose handling pathways while concomitantly reducing lipid and protein metabolic pathways. The improved glucose tolerance and metabolic flexibility resulted in the systemic reduction of inflammatory signatures across peripheral tissues, including liver, lung, and white adipose fat. Together, these findings highlight the critical role of muscle Bmal1 and downstream target genes for skeletal muscle homeostasis with considerable implications for systemic health.

Authors

Miguel A. Gutierrez-Monreal, Christopher A. Wolff, Eduardo E. Rijos, Mark R. Viggars, Collin M. Douglas, Vishwajeeth Pagala, Junmin Peng, Liam C. Hunt, Haocheng Ding, Zhiguang Huo, Fabio Demontis, Karyn A. Esser

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Figure 6

Systemic effects in the rescue model are associated with inflammatory status at 40 weeks of age.

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Systemic effects in the rescue model are associated with inflammatory st...
(A) Number of DEGs in liver, lung, heart, and white fat tissues comparing Bmal1-KO vs. KO+AAV at 40 weeks of age (n = 4 samples/group). (B) No overlapping DEGs were found across all tissues. (C) Examples of biological processes related to inflammation or metabolism in each tissue. (D) Partial least squares discriminant analysis of 4,129 metabolomic features. (E) Manhattan plot. The dotted line represents P value < 0.05 comparing Bmal1-KO with KO+AAV plasma samples (n = 5/group). Blue and red dots above the line indicate significantly increased or decreased features, respectively. (F) KEGG pathway analysis of untargeted plasma metabolomics results. (G) Main classes of plasma metabolites. (H) Metabolites related to alanine, aspartate, and glutamate metabolism. (I) Metabolites associated with inflammatory responses (n = 5 samples/group). Two-tailed Student’s, *P < 0.05, **P < 0.01. Box plots show the interquartile range, median (line), and minimum and maximum (whiskers).