Caloric Restriction and Healthy Life Span: Frail Phenotype of Nonhuman Primates in the Wisconsin National Primate Research Center Caloric Restriction Study

Calorie restriction without malnutrition increases longevity and delays the onset of age-associated disorders in multiple species. Recently, greater emphasis has been placed on healthy life span and preventing frailty than on longevity. Here, we show the beneficial effect of long-term calorie restriction on frailty in later life in a nonhuman primate. Frail phenotypes were evaluated using metabolic and physical activity data and defined using the Fried index. Shrinking was defined as unintentional weight loss of greater than 5% of body weight. Weakness was indicated by decline in high intensity spontaneous physical activity. Poor endurance or exhaustion was indicated by a reduction in energy efficiency of movements. Slowness was indicated by physical activity counts in the morning. Low physical activity level was measured by total energy expenditure using doubly labeled water divided by sleeping metabolic rate. Weakness, poor endurance, slowness, and low physical activity level were significantly higher in control compared with calorie restriction (p < .05) as was total incidence of frailty (p < .001). In conclusion, we established a novel set of measurable criteria of frailty in nonhuman primates, and using these criteria, showed that calorie restriction reduces the incidence of frailty and increases healthy life span in nonhuman primates.

[1]  L. Rodríguez-Mañas,et al.  Frailty and sarcopenia as the basis for the phenotypic manifestation of chronic diseases in older adults. , 2016, Molecular aspects of medicine.

[2]  E. Rezende,et al.  Effects of Size, Sex, and Voluntary Running Speeds on Costs of Locomotion in Lines of Laboratory Mice Selectively Bred for High Wheel‐Running Activity , 2005, Physiological and Biochemical Zoology.

[3]  R. Weindruch,et al.  Seminars in medicine of the Beth Israel Deaconess Medical Center. Caloric intake and aging. , 1997, The New England journal of medicine.

[4]  L. Fried,et al.  Frailty in older adults: evidence for a phenotype. , 2001, The journals of gerontology. Series A, Biological sciences and medical sciences.

[5]  A. Bartke,et al.  Prevention of Neuromusculoskeletal Frailty in Slow-Aging Ames Dwarf Mice: Longitudinal Investigation of Interaction of Longevity Genes and Caloric Restriction , 2013, PloS one.

[6]  E. Ravussin,et al.  Energy expenditure by doubly labeled water: validation in humans and proposed calculation. , 1986, The American journal of physiology.

[7]  Issa Zakeri,et al.  Prediction of activity energy expenditure using accelerometers in children. , 2004, Medicine and science in sports and exercise.

[8]  D. Ingram,et al.  Delay of T cell senescence by caloric restriction in aged long-lived nonhuman primates , 2006, Proceedings of the National Academy of Sciences.

[9]  David N. Messina,et al.  Evolutionary and Biomedical Insights from the Rhesus Macaque Genome , 2007, Science.

[10]  A M Prentice,et al.  Isotope method for the measurement of carbon dioxide production rate in man. , 1985, The American journal of clinical nutrition.

[11]  E. Nakamura,et al.  A method for identifying biomarkers of aging and constructing an index of biological age in humans. , 2007, The journals of gerontology. Series A, Biological sciences and medical sciences.

[12]  D. Allison,et al.  Dietary restriction and glucose regulation in aging rhesus monkeys: a follow-up report at 8.5 yr. , 2001, American journal of physiology. Endocrinology and metabolism.

[13]  Joseph W. Kemnitz,et al.  Aging Experiments Using Nonhuman Primates , 1998 .

[14]  R. de Cabo,et al.  Measures of Healthspan as Indices of Aging in Mice-A Recommendation. , 2016, The journals of gerontology. Series A, Biological sciences and medical sciences.

[15]  R. Weindruch,et al.  Energy expenditure of adult male rhesus monkeys during the first 30 mo of dietary restriction. , 1997, The American journal of physiology.

[16]  J. Cox,et al.  Relative Fitness and Frailty of Elderly Men and Women in Developed Countries and Their Relationship with Mortality , 2005, Journal of the American Geriatrics Society.

[17]  R. Weindruch,et al.  Influences of calorie restriction and age on energy expenditure in the rhesus monkey. , 2007, American journal of physiology. Endocrinology and metabolism.

[18]  R. Weindruch,et al.  Dietary restriction and aging in rhesus monkeys: the University of Wisconsin study , 2000, Experimental Gerontology.

[19]  T. Kirkwood,et al.  Grip Strength Decline and Its Determinants in the Very Old: Longitudinal Findings from the Newcastle 85+ Study , 2016, PloS one.

[20]  R. de Cabo,et al.  Clinical Interventions in Aging Dovepress Animal Models of Frailty: Current Applications in Clinical Research Sarah N Hilmer 2–4 , 2022 .

[21]  L. Partridge,et al.  Promoting Health and Longevity through Diet: From Model Organisms to Humans , 2015, Cell.

[22]  E Jéquier,et al.  Twenty-four-hour energy expenditure and resting metabolic rate in obese, moderately obese, and control subjects. , 1982, The American journal of clinical nutrition.

[23]  R. Colman,et al.  Body fat distribution with long-term dietary restriction in adult male rhesus macaques. , 1999, The journals of gerontology. Series A, Biological sciences and medical sciences.

[24]  P. Kaufman,et al.  Dietary restriction of adult male rhesus monkeys: design, methodology, and preliminary findings from the first year of study. , 1993, Journal of gerontology.

[25]  Corby K. Martin,et al.  A 2-Year Randomized Controlled Trial of Human Caloric Restriction: Feasibility and Effects on Predictors of Health Span and Longevity. , 2015, The journals of gerontology. Series A, Biological sciences and medical sciences.

[26]  R. Weindruch,et al.  Long-term calorie restriction decreases metabolic cost of movement and prevents decrease of physical activity during aging in rhesus monkeys , 2013, Experimental Gerontology.

[27]  Robert A. Rose,et al.  A Clinical Frailty Index in Aging Mice: Comparisons With Frailty Index Data in Humans , 2013, The journals of gerontology. Series A, Biological sciences and medical sciences.

[28]  S. Iliffe,et al.  Frailty in elderly people , 2013, The Lancet.

[29]  I. McDowell,et al.  A global clinical measure of fitness and frailty in elderly people , 2005, Canadian Medical Association Journal.

[30]  A. Goodchild,et al.  Recording, labeling, and transfection of single neurons in deep brain structures , 2015, Physiological reports.

[31]  D. Allison,et al.  Attenuation of sarcopenia by dietary restriction in rhesus monkeys. , 2008, The journals of gerontology. Series A, Biological sciences and medical sciences.

[32]  Sterling C. Johnson,et al.  Caloric Restriction Delays Disease Onset and Mortality in Rhesus Monkeys , 2009, Science.

[33]  S. Ancoli-Israel,et al.  Corrigendum to: "Who Take Naps? Self-Reported and Objectively Measured Napping in Very Old Women". , 2017, The journals of gerontology. Series A, Biological sciences and medical sciences.

[34]  H. Boter,et al.  Prevalence of Frailty in Community‐Dwelling Older Persons: A Systematic Review , 2012, Journal of the American Geriatrics Society.

[35]  Y. Oshima,et al.  Validity and reproducibility of a novel method for time-course evaluation of diet-induced thermogenesis in a respiratory chamber , 2015, Physiological reports.

[36]  M. Yamada,et al.  Predictive Value of Frailty Scores for Healthy Life Expectancy in Community-Dwelling Older Japanese Adults. , 2015, Journal of the American Medical Directors Association.

[37]  R. Weindruch,et al.  Caloric Intake and Aging , 1997 .

[38]  R. Colman,et al.  Nonhuman primate calorie restriction. , 2011, Antioxidants & redox signaling.

[39]  Ted G. Graber,et al.  Clinically relevant frailty index for mice. , 2014, The journals of gerontology. Series A, Biological sciences and medical sciences.

[40]  K. Rockwood,et al.  Reliability of a Frailty Index Based on the Clinical Assessment of Health Deficits in Male C57BL/6J Mice , 2014, The journals of gerontology. Series A, Biological sciences and medical sciences.

[41]  R. Weindruch,et al.  Metabolizable energy intake during long-term calorie restriction in rhesus monkeys , 2007, Experimental Gerontology.

[42]  R. de Cabo,et al.  Impact of Longevity Interventions on a Validated Mouse Clinical Frailty Index. , 2016, The journals of gerontology. Series A, Biological sciences and medical sciences.

[43]  Y. Schutz,et al.  Diet-induced thermogenesis measured over a whole day in obese and nonobese women. , 1984, The American journal of clinical nutrition.

[44]  Guillaume Marçais,et al.  A new rhesus macaque assembly and annotation for next-generation sequencing analyses , 2014, Biology Direct.

[45]  Nicholette D. Palmer,et al.  Cerebral Structure and Cognitive Performance in African Americans and European Americans With Type 2 Diabetes , 2018, The journals of gerontology. Series A, Biological sciences and medical sciences.

[46]  R. Weindruch,et al.  Energy expenditure of rhesus monkeys subjected to 11 years of dietary restriction. , 2003, The Journal of clinical endocrinology and metabolism.

[47]  R. Weindruch,et al.  Caloric restriction reduces age-related and all-cause mortality in rhesus monkeys , 2014, Nature Communications.