Abstract
Ample evidence implicates cellular senescence as a contributor to frailty and functional decline in rodents, but considerable effort remains to translate these findings to human aging.
We quantified senescence biomarker p16INK4a-expressing cells in thigh adipose tissue obtained from older women previously enrolled in a 5-month resistance training intervention, with or without caloric restriction (RT ± CR, n = 11 baseline, 8 pre–post-intervention pairs). Women in this subsample were older (72.9 ± 3.4 y) and overweight/obese (body mass index: 30.6 ± 2.4 kg/m2). p16INK4a+ cells were identified from 12 to 20 random visual fields/sample at 20× magnification (immunohistochemical, nuclear staining) and were present in all adipose samples.
Cross-sectional associations were observed between p16INK4a+ cell burden and physical function, including grip strength (r = –0.74), 400-m walk time (r = 0.74), 4-m gait speed (r = –0.73), and self-perceived mobility (r = –0.78) (p ≤ .05). These relationships remained significant after independent adjustments for age and adiposity (p ≤ .05). p16INK4a+ cell abundance was lower following the intervention (pre: 5.47 ± 3.4%, post: 2.17 ± 1.1% count p16INK4a+ cells, p ≤ .05).
These results provide proof-of-concept that p16INK4a+ cells in thigh adipose are associated with physical function, and may be sensitive to change with RT ± CR in overweight/obese older women.
