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A cross-sectional study of functional and metabolic changes during aging through the lifespan in male mice

Michael Petr, Irene Alfaras, Melissa Krawcyzk, Woei-Nan Bair, Sarah J. Mitchell, Christopher H. Morrell, Stephanie A. Studenski, Nathan L. Price, Kenneth W. Fishbein, Richard G. Spencer, Morten Scheibye‐Knudsen, Edward G. Lakatta, Luigi Ferrucci, Miguel A. Aon, Michel Bernier, Rafael de Cabo

2021eLife96 citationsDOIOpen Access PDF

Abstract

Aging is associated with distinct phenotypical, physiological, and functional changes, leading to disease and death. The progression of aging-related traits varies widely among individuals, influenced by their environment, lifestyle, and genetics. In this study, we conducted physiologic and functional tests cross-sectionally throughout the entire lifespan of male C57BL/6N mice. In parallel, metabolomics analyses in serum, brain, liver, heart, and skeletal muscle were also performed to identify signatures associated with frailty and age-dependent functional decline. Our findings indicate that declines in gait speed as a function of age and frailty are associated with a dramatic increase in the energetic cost of physical activity and decreases in working capacity. Aging and functional decline prompt organs to rewire their metabolism and substrate selection and toward redox-related pathways, mainly in liver and heart. Collectively, the data provide a framework to further understand and characterize processes of aging at the individual organism and organ levels.

Topics & Concepts

BiologyLongevityPhenotypeAgeingOrganismMetabolomicsDiseaseHealthy agingSenescenceSkeletal musclePhysiologyBioinformaticsGerontologyInternal medicineGeneticsMedicineEndocrinologyGeneAdipose Tissue and MetabolismDietary Effects on HealthGenetics, Aging, and Longevity in Model Organisms
A cross-sectional study of functional and metabolic changes during aging through the lifespan in male mice | Litcius