In rodent species it has been possible to retard aging process(es). This has been most successfully accomplished by the reduction of caloric intake by 25-40%. Such reduction, whether introduced early in life or in midlife, has been repeatedly demonstrated to significantly prolong life. Furthermore, in system in which normal physiologic aging has been well characterized, caloric restriction has been shown to diminish the rate of age-related change. For examine, underfed mice maintain thymic tissue mass and immune competence longer and have fewer spontaneous cancers. Similarly, other biochemical markers of aging (such as collagen denaturation rate, open field behavior, hair growth rate, etc.) are favorably affected. The implications of these observations would be of great practical importance if they are applicable to higher species. Similar studies have not been accomplished in humans, perhaps because of the uncertainty of dietary compliance and length of survival. Nonhuman primates, however, would be suitable for such investigation. In the current proposal we plan to carefully evaluate 30 rhesus monkeys (macaca mulatta) in a dietary restriction program. Initially, all animals will be placed on a well defined experimental diet. After three months of careful dietary observation one half of the animals will have a gradual reduction in calories (over the subsequent 3 months), and thereafter be maintained at a level of approximately 70% of their pre-diet level. The dietary components restricted will be carbohydrates and fats, whereas protein content, minerals and vitamins will be maintain stable. The other group will be continued on an ad-libitum diet. Although the rhesus monkey ages at about twice the rate of humans, alterations in aging processes, rather than survival will be the experimental measures. To accomplish this, we have developed a panel of """"""""biomarkers"""""""" of aging which correlate well with both chronologic age and longevity. These measures include certain physiological parameters in which we have demonstrated characteristics age-related changes (immune function, visual accommodation, and glucose regulation). The goal of this study is to determine if midlife dietary restriction in rhesus monkeys will be associated with objective markers of delayed aging. If this is true, it would lend greater significance to the thorough and well characterized observations of the benefits of calorie restriction in lower species.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Project (R01)
Project #
5R01AG007831-02
Application #
3119188
Study Section
Nutrition Study Section (NTN)
Project Start
1989-06-01
Project End
1994-05-31
Budget Start
1990-06-01
Budget End
1991-05-31
Support Year
2
Fiscal Year
1990
Total Cost
Indirect Cost
Name
University of Wisconsin Madison
Department
Type
Schools of Medicine
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Kemnitz, Joseph W (2011) Calorie restriction and aging in nonhuman primates. ILAR J 52:66-77
Bruns, Cristin M; Baum, Scott T; Colman, Ricki J et al. (2004) Insulin resistance and impaired insulin secretion in prenatally androgenized male rhesus monkeys. J Clin Endocrinol Metab 89:6218-23
Gresl, T A; Colman, R J; Roecker, E B et al. (2001) Dietary restriction and glucose regulation in aging rhesus monkeys: a follow-up report at 8.5 yr. Am J Physiol Endocrinol Metab 281:E757-65
Ramsey, J J; Laatsch, J L; Kemnitz, J W (2000) Age and gender differences in body composition, energy expenditure, and glucoregulation of adult rhesus monkeys. J Med Primatol 29:9-Nov
Schroederus, K M; Gresl, T A; Kemnitz, J W (1999) Reduced water intake but normal response to acute water deprivation in elderly rhesus monkeys. Aging (Milano) 11:101-8
Colman, R J; Hudson, J C; Barden, H S et al. (1999) A comparison of dual-energy X-ray absorptiometry and somatometrics for determining body fat in rhesus macaques. Obes Res 7:90-6
Colman, R J; Ramsey, J J; Roecker, E B et al. (1999) Body fat distribution with long-term dietary restriction in adult male rhesus macaques. J Gerontol A Biol Sci Med Sci 54:B283-90
Ramsey, J J; Colman, R J; Swick, A G et al. (1998) Energy expenditure, body composition, and glucose metabolism in lean and obese rhesus monkeys treated with ephedrine and caffeine. Am J Clin Nutr 68:42-51
Ramsey, J J; Roecker, E B; Weindruch, R et al. (1997) Energy expenditure of adult male rhesus monkeys during the first 30 mo of dietary restriction. Am J Physiol 272:E901-7
Roecker, E B; Kemnitz, J W; Ershler, W B et al. (1996) Reduced immune responses in rhesus monkeys subjected to dietary restriction. J Gerontol A Biol Sci Med Sci 51:B276-9

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