A natural variation-based screen in mouse cells reveals USF2 as a regulator of the DNA damage response and cellular senescence

Kang, Taekyu; Moore, Emily C.; King, C. G.; Schilling, Birgit; Campisi, Judith; Good, Jeffrey M.; Brem, Rachel B.

doi:10.1093/g3journal/jkad091

G3: Genes, Genomes, Genetics

2023

DOI: 10.1093/g3journal/jkad091

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A natural variation-based screen in mouse cells reveals USF2 as a regulator of the DNA damage response and cellular senescence

Taekyu Kang

Emily C. Moore

C. G. King

et al.

Abstract: Cellular senescence is a program of cell cycle arrest, apoptosis resistance, and cytokine release induced by stress exposure in metazoan cells. Landmark studies in laboratory mice have characterized a number of master senescence regulators, including p16INK4a, p21, NF-κB, p53, and C/EBPβ. To discover other molecular players in senescence, we developed a screening approach to harness the evolutionary divergence between mouse species. We found that primary cells from the Mediterranean mouse Mus spretus, when tre… Show more

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2024

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Cited by 2 publications

References 110 publications

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Combined Endurance and Resistance Exercise Mitigates Age‐Associated Cardiac Dysfunction

Han,

Ashraf,

Shi

et al. 2024

Advanced Biology

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Aging is associated with a decline in cardiac function. Exercise has been shown to effectively reduce the risks of cardiovascular diseases. Here whether a combination of endurance and resistance exercises can improve cardiac function in aged mice during late life is investigated. Through transcriptome analysis, several signaling pathways activated in the hearts of 22‐month‐old mice after combined exercise, including cardiac muscle contraction, mitophagy, and longevity regulation are identified. Combined exercise training mitigated age‐associated pathological cardiac hypertrophy, reduced oxidative stress, cardiac senescence, and enhanced cardiac function. Upstream stimulatory factor 2 (Usf2) is upregulated in the aged mouse hearts with combined exercise compared to sedentary mice. In the human cardiomyocytes senescent model, overexpression of Usf2 led to anti‐senescence effects, while knockdown of Usf2 exacerbated cellular senescence. The results suggest that a combination of endurance and resistance exercises, such as swimming and resistance running, can mitigate age‐related pathological cardiac remodeling and cardiac dysfunction in late life. These cardioprotective effects are likely due to the activation of Usf2 and its anti‐senescence effect. Therefore, Usf2 can potentially be a novel therapeutic target for mitigating age‐related cardiac dysfunction.

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Combined Endurance and Resistance Exercise Mitigates Age‐Associated Cardiac Dysfunction

Han,

Ashraf,

Shi

et al. 2024

Advanced Biology

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Single-cell senescence identification reveals senescence heterogeneity, trajectory, and modulators

Tao,

Yu,

Han

2024

Cell Metabolism

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A natural variation-based screen in mouse cells reveals USF2 as a regulator of the DNA damage response and cellular senescence

Cited by 2 publications

References 110 publications

Combined Endurance and Resistance Exercise Mitigates Age‐Associated Cardiac Dysfunction

Combined Endurance and Resistance Exercise Mitigates Age‐Associated Cardiac Dysfunction

Single-cell senescence identification reveals senescence heterogeneity, trajectory, and modulators

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