A calorie-restricted diet decreases brain Iron accumulation and preserves motor performance in old rhesus monkeys

Erik K. Kastman; Auriel A. Willette; Christopher L. Coe; Barbara B. Bendlin; Kris J. Kosmatka; Donald G. McLaren; Guofan Xu; Elisa Canu; Aaron S. Field; Andrew L. Alexander; Mary Lou Voytko; T. Mark Beasley; Ricki J. Colman; Richard H. Weindruch; Sterling C. Johnson

doi:10.1523/JNEUROSCI.2553-12.2012

A calorie-restricted diet decreases brain Iron accumulation and preserves motor performance in old rhesus monkeys

Erik K. Kastman, Auriel A. Willette, Christopher L. Coe, Barbara B. Bendlin, Kris J. Kosmatka, Donald G. McLaren, Guofan Xu, Elisa Canu, Aaron S. Field, Andrew L. Alexander, Mary Lou Voytko, T. Mark Beasley, Ricki J. Colman, Richard H. Weindruch, Sterling C. Johnson

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34 Scopus citations

Abstract

Caloric restriction (CR) reduces the pathological effects of aging and extends the lifespan inmanyspecies, including nonhuman primates, although the effect on the brain is less well characterized. We used two common indicators of aging, motor performance speed and brain iron deposition measured in vivo using magnetic resonance imaging, to determine the potential effect of CR on elderly rhesus macaques eating restricted (n24, 13 males, 11 females) and standard (n17, 8 males, 9 females) diets. Both the CR and control monkeys showed age-related increases in iron concentrations in globus pallidus (GP) and substantia nigra (SN), although the CR group had significantly less iron deposition in the GP, SN, red nucleus, and temporal cortex.A Diet × Age interaction revealed thatCR modified age-related brain changes, evidenced as attenuation in the rate of iron accumulation in basal ganglia and parietal, temporal, and perirhinal cortex. Additionally, control monkeys had significantly slower fine motor performance on the Movement Assessment Panel, which was negatively correlated with iron accumulation in left SN and parietal lobe, although CR animals did not show this relationship. Our observations suggest that the CR-induced benefit of reduced iron deposition and preserved motor function may indicate neural protection similar to effects described previously in aging rodent and primate species.

Original language	English (US)
Pages (from-to)	11897-11904
Number of pages	8
Journal	Journal of Neuroscience
Volume	32
Issue number	34
DOIs	https://doi.org/10.1523/JNEUROSCI.2553-12.2012
State	Published - Aug 22 2012
Externally published	Yes

ASJC Scopus subject areas

General Neuroscience

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Kastman, E. K., Willette, A. A., Coe, C. L., Bendlin, B. B., Kosmatka, K. J., McLaren, D. G., Xu, G., Canu, E., Field, A. S., Alexander, A. L., Voytko, M. L., Mark Beasley, T., Colman, R. J., Weindruch, R. H., & Johnson, S. C. (2012). A calorie-restricted diet decreases brain Iron accumulation and preserves motor performance in old rhesus monkeys. Journal of Neuroscience, 32(34), 11897-11904. https://doi.org/10.1523/JNEUROSCI.2553-12.2012

Kastman, EK, Willette, AA, Coe, CL, Bendlin, BB, Kosmatka, KJ, McLaren, DG, Xu, G, Canu, E, Field, AS, Alexander, AL, Voytko, ML, Mark Beasley, T, Colman, RJ, Weindruch, RH & Johnson, SC 2012, 'A calorie-restricted diet decreases brain Iron accumulation and preserves motor performance in old rhesus monkeys', Journal of Neuroscience, vol. 32, no. 34, pp. 11897-11904. https://doi.org/10.1523/JNEUROSCI.2553-12.2012

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title = "A calorie-restricted diet decreases brain Iron accumulation and preserves motor performance in old rhesus monkeys",

abstract = "Caloric restriction (CR) reduces the pathological effects of aging and extends the lifespan inmanyspecies, including nonhuman primates, although the effect on the brain is less well characterized. We used two common indicators of aging, motor performance speed and brain iron deposition measured in vivo using magnetic resonance imaging, to determine the potential effect of CR on elderly rhesus macaques eating restricted (n24, 13 males, 11 females) and standard (n17, 8 males, 9 females) diets. Both the CR and control monkeys showed age-related increases in iron concentrations in globus pallidus (GP) and substantia nigra (SN), although the CR group had significantly less iron deposition in the GP, SN, red nucleus, and temporal cortex.A Diet × Age interaction revealed thatCR modified age-related brain changes, evidenced as attenuation in the rate of iron accumulation in basal ganglia and parietal, temporal, and perirhinal cortex. Additionally, control monkeys had significantly slower fine motor performance on the Movement Assessment Panel, which was negatively correlated with iron accumulation in left SN and parietal lobe, although CR animals did not show this relationship. Our observations suggest that the CR-induced benefit of reduced iron deposition and preserved motor function may indicate neural protection similar to effects described previously in aging rodent and primate species.",

author = "Kastman, {Erik K.} and Willette, {Auriel A.} and Coe, {Christopher L.} and Bendlin, {Barbara B.} and Kosmatka, {Kris J.} and McLaren, {Donald G.} and Guofan Xu and Elisa Canu and Field, {Aaron S.} and Alexander, {Andrew L.} and Voytko, {Mary Lou} and {Mark Beasley}, T. and Colman, {Ricki J.} and Weindruch, {Richard H.} and Johnson, {Sterling C.}",

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AU - Kastman, Erik K.

AU - Willette, Auriel A.

AU - Coe, Christopher L.

AU - Bendlin, Barbara B.

AU - Kosmatka, Kris J.

AU - McLaren, Donald G.

AU - Xu, Guofan

AU - Canu, Elisa

AU - Field, Aaron S.

AU - Alexander, Andrew L.

AU - Voytko, Mary Lou

AU - Mark Beasley, T.

AU - Colman, Ricki J.

AU - Weindruch, Richard H.

AU - Johnson, Sterling C.

PY - 2012/8/22

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N2 - Caloric restriction (CR) reduces the pathological effects of aging and extends the lifespan inmanyspecies, including nonhuman primates, although the effect on the brain is less well characterized. We used two common indicators of aging, motor performance speed and brain iron deposition measured in vivo using magnetic resonance imaging, to determine the potential effect of CR on elderly rhesus macaques eating restricted (n24, 13 males, 11 females) and standard (n17, 8 males, 9 females) diets. Both the CR and control monkeys showed age-related increases in iron concentrations in globus pallidus (GP) and substantia nigra (SN), although the CR group had significantly less iron deposition in the GP, SN, red nucleus, and temporal cortex.A Diet × Age interaction revealed thatCR modified age-related brain changes, evidenced as attenuation in the rate of iron accumulation in basal ganglia and parietal, temporal, and perirhinal cortex. Additionally, control monkeys had significantly slower fine motor performance on the Movement Assessment Panel, which was negatively correlated with iron accumulation in left SN and parietal lobe, although CR animals did not show this relationship. Our observations suggest that the CR-induced benefit of reduced iron deposition and preserved motor function may indicate neural protection similar to effects described previously in aging rodent and primate species.

AB - Caloric restriction (CR) reduces the pathological effects of aging and extends the lifespan inmanyspecies, including nonhuman primates, although the effect on the brain is less well characterized. We used two common indicators of aging, motor performance speed and brain iron deposition measured in vivo using magnetic resonance imaging, to determine the potential effect of CR on elderly rhesus macaques eating restricted (n24, 13 males, 11 females) and standard (n17, 8 males, 9 females) diets. Both the CR and control monkeys showed age-related increases in iron concentrations in globus pallidus (GP) and substantia nigra (SN), although the CR group had significantly less iron deposition in the GP, SN, red nucleus, and temporal cortex.A Diet × Age interaction revealed thatCR modified age-related brain changes, evidenced as attenuation in the rate of iron accumulation in basal ganglia and parietal, temporal, and perirhinal cortex. Additionally, control monkeys had significantly slower fine motor performance on the Movement Assessment Panel, which was negatively correlated with iron accumulation in left SN and parietal lobe, although CR animals did not show this relationship. Our observations suggest that the CR-induced benefit of reduced iron deposition and preserved motor function may indicate neural protection similar to effects described previously in aging rodent and primate species.

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A calorie-restricted diet decreases brain Iron accumulation and preserves motor performance in old rhesus monkeys

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