Caloric restriction (CR: reducing caloric intake 30-40 percent below ad libitum levels) remains the only intervention that reproducibly extends lifespan, reduces the incidence and delays the onset of age-related disease, enhances stress protection, and attenuates functional decline in mammals. The NIA longitudinal study of CR and aging in rhesus monkeys finished its 22nd year. Monkeys continue to be monitored regularly. Previous work tested the overall T-cell function and existing memory/persistent immune response maintained during aging. In a follow up experiment, we evaluated the ability of naive T-cells to mount a new immune response to an antigen that the monkeys have not been exposed to previously. This is important because of the generally weak response of elderly humans to vaccinations and may resolve whether it is naive, not memory responses that are preferentially affected in aging. An initial immunization was followed by blood collections and two booster immunizations over the course of approximately four months. Blood samples are currently being analyzed. Monkeys continue on a regular rotation to receive eye exams and fundus photographs. Females had a higher prevalence and severity of drusenoid maculopathy than males;this gender difference is not consistently found in humans. To date, no effect of CR has been identified but there is some indication of a genetic determinant. A major research focus for the aging monkeys continues to be behavior changes. Locomotor testing is evaluated every three years and preliminary results indicate that CR monkeys tend to be more active than controls during the day but less active at night. Complex tasks of learning and memory using custom-made portable touch-screen panels are currently underway. Motor performance was assessed using an automated monkey Movement Assessment Panel (mMAP) that has reproducibly and reliably measured reaction time, coarse-motor, and fine-motor movement in rhesus monkeys and humans. In our study, an age-related decline in fine motor performance has been observed that was partially ameliorated in the CR monkeys, this difference has persisted during 6 years of testing. We continue to monitor morbidity and mortality.
Mattison, Julie A; Colman, Ricki J (2018) Response to Le Bourg. J Gerontol A Biol Sci Med Sci 73:310 |
Vaughan, Kelli L; Mattison, Julie A (2018) Watch the Clock, Not the Scale. Cell Metab 27:1159-1160 |
Mattison, Julie A; Vaughan, Kelli L (2017) An overview of nonhuman primates in aging research. Exp Gerontol 94:41-45 |
Aghazadeh-Sanai, Nona; Downs, Jodi L; Mattison, Julie A et al. (2017) Effect of caloric restriction on plasma melatonin levels in aged rhesus macaques. Neurobiol Aging 55:213-216 |
Balasubramanian, Priya; Mattison, Julie A; Anderson, Rozalyn M (2017) Nutrition, metabolism, and targeting aging in nonhuman primates. Ageing Res Rev 39:29-35 |
Mattison, Julie A; Colman, Ricki J; Beasley, T Mark et al. (2017) Caloric restriction improves health and survival of rhesus monkeys. Nat Commun 8:14063 |
Di Biase, Stefano; Lee, Changhan; Brandhorst, Sebastian et al. (2016) Fasting-Mimicking Diet Reduces HO-1 to Promote TÂ Cell-Mediated Tumor Cytotoxicity. Cancer Cell 30:136-146 |
Sitzmann, Brandon D; Brown, Donald I; Garyfallou, Vasilios T et al. (2014) Impact of moderate calorie restriction on testicular morphology and endocrine function in adult rhesus macaques (Macaca mulatta). Age (Dordr) 36:183-97 |
Urbanski, Henryk F; Mattison, Julie A; Roth, George S et al. (2013) Dehydroepiandrosterone sulfate (DHEAS) as an endocrine marker of aging in calorie restriction studies. Exp Gerontol 48:1136-9 |
Mercken, Evi M; Majounie, Elisa; Ding, Jinhui et al. (2013) Age-associated miRNA alterations in skeletal muscle from rhesus monkeys reversed by caloric restriction. Aging (Albany NY) 5:692-703 |
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