Aged human muscle demonstrates an altered gene expression profile consistent with an impaired response to exercise

Citation
Ac. Jozsi et al., Aged human muscle demonstrates an altered gene expression profile consistent with an impaired response to exercise, MECH AGE D, 120(1-3), 2000, pp. 45-56
Citations number
28
Categorie Soggetti
Cell & Developmental Biology
Journal title
MECHANISMS OF AGEING AND DEVELOPMENT
ISSN journal
00476374 → ACNP
Volume
120
Issue
1-3
Year of publication
2000
Pages
45 - 56
Database
ISI
SICI code
0047-6374(200012)120:1-3<45:AHMDAA>2.0.ZU;2-8
Abstract
The gene expression profile of skeletal muscle from healthy older (62-75 ye ars old) compared with younger (20-34 years old) men demonstrated elevated expression of genes typical of a stress or damage response, and decreased e xpression of a gene encoding a DNA repair/cell cycle checkpoint protein. Al though the expression of these genes was relatively unaffected by a single bout of resistance exercise in older men, acute exercise altered gene expre ssion in younger men such that post-exercise gene expression in younger men was similar to baseline gene expression in older men. The lack of response of muscle from older subjects to resistance exercise was also apparent in the expression of the inflammatory response gene IL-1 beta, which did not d iffer between the age groups at baseline, but increased within 24 h of the exercise bout only in younger subjects. Other genes with potentially import ant roles in the adaptation of muscle to exercise, specifically in the proc esses of angiogenesis and cell proliferation, showed a similar response to exercise in older compared with younger subjects. Only one gene encoding th e multifunctional, early growth response transcription factor EGR-1, showed an opposite pattern of expression in response to exercise, acutely decreas ing in younger and increasing in older subjects. These results may provide a molecular basis for the inherent variability in the response of muscle fr om older as compared with younger individuals to resistance training. (C) 2 000 Elsevier Science Ireland Ltd. All rights reserved.