Performance Fatigability is Associated with Differential Gene Expression Patterns in Human Skeletal Muscle
Emma Gay, Paul Coen, Rebecca Deek, Brenda Diergaarde, Samaneh Farsijani, Michael Jurczak, Yujia Qiao, Nancy Glynn

TL;DR
This study finds that performance fatigability in older adults is linked to specific gene expression patterns in skeletal muscle, which could help develop interventions to reduce fatigue and improve mobility.
Contribution
The study identifies novel gene expression patterns and biological pathways associated with performance fatigability in older adults.
Findings
1,935 differentially expressed genes were found in individuals with performance fatigability.
Four key pathways related to muscle aging were up-regulated in those with performance fatigability.
Upregulated pathways are linked to muscle strength loss and mobility decline in aging.
Abstract
Performance fatigability, the degree one is limited by fatigue during a physical task, is a common trait among older adults and is associated with physical and cognitive function. Knowledge of the biological mechanisms underlying performance fatigability is limited; the skeletal muscle transcriptome may reveal important pathways to prevent or mitigate performance fatigability and promote longer healthspan. The accelerometry-based Pittsburgh Performance Fatigability Index (PPFI) quantified percentage of cadence decline (i.e., slowing down) during the usual-paced 400m walk (range 0-100%). We used available cross-sectional skeletal muscle RNAseq data from the Study of Muscle, Mobility and Aging (n = 724, 55.5% Women, 86.9% White) to identify differentially expressed genes in participants with performance fatigability (PPFI>0%, n = 455, 62.8%) and those without performance fatigability…
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Taxonomy
TopicsMuscle metabolism and nutrition · Muscle Physiology and Disorders · Fibromyalgia and Chronic Fatigue Syndrome Research
