Litcius/Paper detail

Distinct and additive effects of calorie restriction and rapamycin in aging skeletal muscle

Daniel J. Ham, Anastasiya Börsch, Kathrin Chojnowska, Shuo Lin, Aurel B. Leuchtmann, Alexander S. Ham, Marco Thürkauf, Julien Delezie, Regula Furrer, Dominik Bürri, Michael Sinnreich, Christoph Handschin, Lionel Tintignac, Mihaela Zavolan, Nitish Mittal, Markus A. Rüegg

2022Nature Communications97 citationsDOIOpen Access PDF

Abstract

Preserving skeletal muscle function is essential to maintain life quality at high age. Calorie restriction (CR) potently extends health and lifespan, but is largely unachievable in humans, making "CR mimetics" of great interest. CR targets nutrient-sensing pathways centering on mTORC1. The mTORC1 inhibitor, rapamycin, is considered a potential CR mimetic and is proven to counteract age-related muscle loss. Therefore, we tested whether rapamycin acts via similar mechanisms as CR to slow muscle aging. Here we show that long-term CR and rapamycin unexpectedly display distinct gene expression profiles in geriatric mouse skeletal muscle, despite both benefiting aging muscles. Furthermore, CR improves muscle integrity in mice with nutrient-insensitive, sustained muscle mTORC1 activity and rapamycin provides additive benefits to CR in naturally aging mouse muscles. We conclude that rapamycin and CR exert distinct, compounding effects in aging skeletal muscle, thus opening the possibility of parallel interventions to counteract muscle aging.

Topics & Concepts

mTORC1Calorie restrictionSkeletal muscleSarcopeniaAgeingBiologySenescenceCell biologyEndocrinologyInternal medicineMedicinePI3K/AKT/mTOR pathwaySignal transductionGenetics, Aging, and Longevity in Model OrganismsMuscle Physiology and DisordersAdipose Tissue and Metabolism