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Rhesus macaques as a tractable physiological model of human ageing
Kenneth L. Chiou, Michael J. Montague, Elisabeth A. Goldman, Marina M. Watowich, Sierra Sams, Jeff Song, Julie E. Horvath, Kirstin N. Sterner, Angelina Ruíz-Lambides, Melween I. Martínez, James P. Higham, Lauren J. N. Brent, Michael L. Platt, Noah Snyder‐Mackler
bioRxiv (Cold Spring Harbor Laboratory) · 2020 · ▲ 17 citations
Abstract
Abstract Research in the basic biology of ageing is increasingly identifying mechanisms and modifiers of ageing in short-lived organisms such as worms and mice. The ultimate goal of such work is to improve human health, particularly in the growing segment of the population surviving into old age. Thus far, few interventions have robustly transcended species boundaries in the laboratory, suggesting that changes in approach are needed to avoid costly failures in translational human research. In this review, we discuss both well-established and alternative model organisms for ageing research and outline how research in nonhuman primates is sorely needed, first, to translate findings from shorter-lived organisms to humans, and second, to understand key aspects of ageing that are unique to primate biology. We focus on rhesus macaques as a particularly promising model organism for ageing research due to their social and physiological similarity to humans as well as the existence of key resources that have been developed for this species. As a case study, we compare gene regulatory signatures of ageing in the peripheral immune system between humans and rhesus macaques from a free-ranging study population in Cayo Santiago. We show that both mRNA expression and DNA methylation signatures of immune ageing are broadly shared between macaques and humans, indicating strong conservation of the trajectory of ageing in the immune system. We conclude with a review of key issues in the biology of ageing for which macaques and other nonhuman primates may uniquely contribute valuable insights, including the effects of social gradients on health and ageing. We anticipate that continuing research in rhesus macaques and other nonhuman primates will play a critical role in conjunction with model organism and human biodemographic research in ultimately improving translational outcomes and extending health and longevity in our ageing population.
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- 10.1101/2020.06.10.143669
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- 2026-07-07 MST
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APA
Chiou, K.L., Montague, M.J., Goldman, E.A., Watowich, M.M., Sams, S., Song, J., Horvath, J.E., Sterner, K.N., Ruíz-Lambides, A., Martínez, M.I., Higham, J.P., Brent, L.J.N., Platt, M.L., & Snyder‐Mackler, N. (2020). Rhesus macaques as a tractable physiological model of human ageing. <em>bioRxiv (Cold Spring Harbor Laboratory)</em>. https://doi.org/10.1101/2020.06.10.143669
Vancouver
Chiou KL, Montague MJ, Goldman EA, Watowich MM, Sams S, Song J, et al. Rhesus macaques as a tractable physiological model of human ageing. bioRxiv (Cold Spring Harbor Laboratory). 2020. doi:10.1101/2020.06.10.143669.
BibTeX
@unpublished{kenneth2020Rhesus,
title = {Rhesus macaques as a tractable physiological model of human ageing},
author = {Kenneth L. Chiou and Michael J. Montague and Elisabeth A. Goldman and Marina M. Watowich and Sierra Sams and Jeff Song and Julie E. Horvath and Kirstin N. Sterner and Angelina Ruíz-Lambides and Melween I. Martínez and James P. Higham and Lauren J. N. Brent and Michael L. Platt and Noah Snyder‐Mackler},
journal = {bioRxiv (Cold Spring Harbor Laboratory)},
year = {2020},
doi = {10.1101/2020.06.10.143669},
}
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