Caloric restriction (CR) is known to retard the aging process, and a marker of aging is decreased energy expenditure (EE). To assess longitudinal effects of CR on EE in rhesus monkeys (Macaca mulatta), data from 41 males (M) and 26 females (F) subjected to 9 or 15 yr of CR were studied. EE and body composition of monkeys 11-28 yr of age were measured using indirect calorimetry and dual X-ray absorptiometry. Total EE (24-h EE) was divided into daytime (day EE), nighttime (night EE), and daytime minus nighttime (D Ϫ N EE). M calorie-restricted monkeys showed a lower 24-h EE (means Ϯ SD ϭ 568 Ϯ 96 kcal/day, P Ͻ 0.0001) than controls (C; 630 Ϯ 129 kcal/day). Calorie-restricted M had a lower night EE (difference ϭ 36 kcal P Ͻ 0.0001) compared with C M, but after adjusting for FFM and FM, night EE was not different between calorie-restricted and C males (P ϭ 0.72). The 24-h EE decreased with age (13 kcal decrease/yr, P Ͻ 0.0001), but there was no difference between CR and C. Adjusted for FFM and FM, D Ϫ N EE decreased with age (9 kcal/yr, P Ͻ 0.0001), with no interaction with age (P ϭ 0.72). The F were compared with age-matched M selected from the male cohort. F had a lower 24-h EE (496 Ϯ 84 kcal/day) than M (636 Ϯ 139 kcal/day) (P Ͻ 0.0001). Adjusting for FFM and FM, night EE was lower in F compared with M (difference ϭ 18 kcal, P ϭ 0.077). Night EE did not differ between calorie-restricted and C younger monkeys after adjusting for FFM and FM. In conclusion, CR did not alter the age-related decrease in EE with CR. metabolic rate; dietary restriction; indirect calorimetry HUMAN AGING IS ASSOCIATED with morphological, physiological, and behavioral changes (31). An age-related decrease in energy expenditure (EE) is one of the measurable changes, such that total EE was shown to decrease by 1-2% with each decade increase in adult life (19). Some of this decrease was attributed to decreases in fat-free mass (FFM), but even after accounting for differences in FFM, resting metabolic rate (RMR) was significantly lower in the elderly compared with the younger individuals (24,33,34).Calorie restriction (CR) slows the aging process and extends maximal life span in multiple species (37). The physiological effects of CR in rhesus monkeys include decreased body weight, lowered body temperature (21), and a decrease in the metabolic rate (2, 8). Of particular interest, in two nonhuman primate studies, CR was associated with reductions in EE beyond those of just a smaller body size (8, 26). In one study, the reduction in total EE (24-h EE) as measured by doubly labeled water was 17% lower in the CR compared with control-fed (C) monkeys. Of this difference, ϳ90% was explained by a lower resting EE in the CR monkeys (2). In another study of CR conducted in rhesus monkeys (8), total EE normalized for differences in FFM was lower in CR compared with C monkeys. However, resting EE explained only 13% of the difference. The effect of CR on energy expenditure has also been reported in other species (2,25) . This lower EE in excess of the decr...
