Systemic and muscle tissue-specific metabolic adaptations to EXercise and POlyphenol supplementation in aging: modulatory effects of SEstrins (EXPOSE)

Sestrins (SESNs), a family of evolutionarily conserved proteins, emerge as key physiological regulators in cellular adaptation to diverse stress stimuli. Scientific evidence highlights SESNs as potential biomarkers and significant regulators of muscle function in aging, therefore the aim of this study is: a) to provide reference of plasma SESN values in healthy young and older adults at baseline, during exercise, and in recovery in relation to their physical performance capacity; b) to investigate the systemic and muscle tissue-specific SESN-mediated metabolic adaptations to a polyphenol supplementation (PS), resistance training (RT) and their combined effect by performing comprehensive analysis of multiple factors involved. Scientific objectives: 1. Determine plasma SESN concentrations in healthy young and older adults at baseline, during acute continuous exercise, and in recovery and estimate SESN associations with physical performance capacity and body composition. 2. Determine SESNs expression and transcriptome in muscle tissue; lipidome, RONS, and antioxidant status in plasma in response to PS, RT and mixed intervention in older adults. 3. Perform comprehensive, integrated data analysis revealing potential systemic and muscle tissue-specific SESN-mediated molecular mechanisms underlying the beneficial effects of PS, RT and mixed intervention in prevention of muscle wasting in older adults.