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Intermittent AP-1 activation in muscles contributes to exercise-induced health benefits
Choubey A, Kumar S U, Yang T, Jager J, Hong S, Damle M, Yin H, Zhao R, Song C, Oturmaz ES, Tong H, Puglise J, Barton ER, Fang B, Hu Z
· 2026
Abstract
<h4>ABSTRACT</h4> Regular physical exercise extends healthspan(definition), yet the molecular mechanisms that translate intermittent contractile stress into lasting benefit remain incompletely understood. Using global nuclear run-on (GRO-seq) in mouse skeletal muscle after treadmill running, we profiled enhancer RNA (eRNA), a sensitive marker of enhancer activity. Activation protein-1 (AP-1), a family of pioneering factors for senescence(definition), emerged as the top transcription factor with motif enrichment in exercise-activated enhancers. Our screen in the contracting C2C12 myotubes pinpointed cFos/JunD as the primary AP-1 factor responsible for contraction-induced transcriptional changes. Muscle-specific overexpression of A-Fos, a dominant-negative mutant of cFos, disrupted transcriptomic responses to exercise and attenuated exercise-mediated improvement in muscle functions. Interestingly, intermittent but not continuous overexpression of cFos/JunD in mouse muscles mimicked exercise-induced transcriptomic changes, increased mitochondrial volume density, enhanced muscle strength and fatigue resistance, and improved glucose tolerance. These results define a transcriptional regulatory signaling pathway linking exercise intermittency to beneficial adaptations and highlight the necessary recovery cycles in training. The paradoxical anti- and pro-aging roles of AP-1 offer insights into the timing and dynamics of stressors and stress responses in shaping senescence and healthspan.
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Provenance
- Source
- Europe PMC
- DOI
- 10.64898/2026.01.05.696542
- Canonical
- link ↗
- Fetched
- 2026-07-01 MST
Cite this
APA
A, C., U, K.S., T, Y., J, J., S, H., M, D., H, Y., R, Z., C, S., ES, O., H, T., J, P., ER, B., B, F., Z, H., L, L., J, X., Y, L., & Z., S. (2026). Intermittent AP-1 activation in muscles contributes to exercise-induced health benefits. https://doi.org/10.64898/2026.01.05.696542
Vancouver
A C, U KS, T Y, J J, S H, M D, et al. Intermittent AP-1 activation in muscles contributes to exercise-induced health benefits. 2026. doi:10.64898/2026.01.05.696542.
BibTeX
@unpublished{choubey2026Interm,
title = {Intermittent AP-1 activation in muscles contributes to exercise-induced health benefits},
author = {Choubey A and Kumar S U and Yang T and Jager J and Hong S and Damle M and Yin H and Zhao R and Song C and Oturmaz ES and Tong H and Puglise J and Barton ER and Fang B and Hu Z and Liao L and Xu J and Lan Y and Sun Z.},
year = {2026},
doi = {10.64898/2026.01.05.696542},
}
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