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A Glb1-2A-mCherry reporter monitors systemic aging and predicts lifespan in middle-aged mice

Jie Sun, Ming Wang, Yaqi Zhong, Xuan Ma, Shimin Sun, Chenzhong Xu, Linyuan Peng, Guo Li, Liting Zhang, Zuojun Liu, Ding Ai, Baohua Liu

2022Nature Communications43 citationsDOIOpen Access PDF

Abstract

Abstract The progressive decline of physiological function and the increased risk of age-related diseases challenge healthy aging. Multiple anti-aging manipulations, such as senolytics, have proven beneficial for health; however, the biomarkers that label in vivo senescence at systemic levels are lacking, thus hindering anti-aging applications. In this study, we generate a Glb1 +/m ‒Glb1-2A-mCherry (GAC) reporter allele at the Glb1 gene locus, which encodes lysosomal β-galactosidase—an enzyme elevated in tissues of old mice. A linear correlation between GAC signal and chronological age is established in a cohort of middle-aged (9 to 13 months) Glb1 +/m mice. The high GAC signal is closely associated with cardiac hypertrophy and a shortened lifespan. Moreover, the GAC signal is exponentially increased in pathological senescence induced by bleomycin in the lung. Senolytic dasatinib and quercetin (D + Q) reduce GAC signal in bleomycin treated mice. Thus, the Glb1-2A-mCherry reporter mice monitors systemic aging and function decline, predicts lifespan, and may facilitate the understanding of aging mechanisms and help in the development of anti-aging interventions.

Topics & Concepts

SenescenceBiologyAgeingmCherryMedicineCell biologyCancer researchGeneGeneticsGreen fluorescent proteinTelomeres, Telomerase, and SenescenceRetinal Development and DisordersAutophagy in Disease and Therapy
A Glb1-2A-mCherry reporter monitors systemic aging and predicts lifespan in middle-aged mice | Litcius