In Vivo Brain Glutathione is Higher in Older Age and Correlates with Mobility

K. E. Hupfeld; H. W. Hyatt; P. Alvarez Jerez; M. Mikkelsen; C. J. Hass; R. A.E. Edden; R. D. Seidler; E. C. Porges

doi:10.1093/cercor/bhab107

In Vivo Brain Glutathione is Higher in Older Age and Correlates with Mobility

K. E. Hupfeld, H. W. Hyatt, P. Alvarez Jerez, M. Mikkelsen, C. J. Hass, R. A.E. Edden, R. D. Seidler, E. C. Porges

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Brain markers of oxidative damage increase with advancing age. In response, brain antioxidant levels may also increase with age, although this has not been well investigated. Here, we used edited magnetic resonance spectroscopy to quantify endogenous levels of glutathione (GSH, one of the most abundant brain antioxidants) in 37 young [mean: 21.8 (2.5) years; 19 female] and 23 older adults [mean: 72.8 (8.9) years; 19 female]. Accounting for age-related atrophy, we identified higher frontal and sensorimotor GSH levels for the older compared with the younger adults. For the older adults only, higher sensorimotor (but not frontal) GSH was correlated with poorer balance and gait. This suggests a regionally specific relationship between higher brain oxidative stress levels and motor performance declines with age. We suggest these findings reflect an upregulation of GSH in response to increasing brain oxidative stress with normal aging. Together, these results provide insight into age differences in brain antioxidant levels and implications for motor function.

Original language	English (US)
Pages (from-to)	4576-4594
Number of pages	19
Journal	Cerebral Cortex
Volume	31
Issue number	10
DOIs	https://doi.org/10.1093/cercor/bhab107
State	Published - Oct 1 2021

Keywords

Hadamard Encoding and Reconstruction of MEGA-Edited Spectroscopy (HERMES)
aging
balance
edited magnetic resonance spectroscopy (MRS)
gait
glutathione (GSH)

ASJC Scopus subject areas

Cognitive Neuroscience
Cellular and Molecular Neuroscience

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10.1093/cercor/bhab107

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abstract = "Brain markers of oxidative damage increase with advancing age. In response, brain antioxidant levels may also increase with age, although this has not been well investigated. Here, we used edited magnetic resonance spectroscopy to quantify endogenous levels of glutathione (GSH, one of the most abundant brain antioxidants) in 37 young [mean: 21.8 (2.5) years; 19 female] and 23 older adults [mean: 72.8 (8.9) years; 19 female]. Accounting for age-related atrophy, we identified higher frontal and sensorimotor GSH levels for the older compared with the younger adults. For the older adults only, higher sensorimotor (but not frontal) GSH was correlated with poorer balance and gait. This suggests a regionally specific relationship between higher brain oxidative stress levels and motor performance declines with age. We suggest these findings reflect an upregulation of GSH in response to increasing brain oxidative stress with normal aging. Together, these results provide insight into age differences in brain antioxidant levels and implications for motor function.",

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AU - Hass, C. J.

AU - Edden, R. A.E.

AU - Seidler, R. D.

AU - Porges, E. C.

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N2 - Brain markers of oxidative damage increase with advancing age. In response, brain antioxidant levels may also increase with age, although this has not been well investigated. Here, we used edited magnetic resonance spectroscopy to quantify endogenous levels of glutathione (GSH, one of the most abundant brain antioxidants) in 37 young [mean: 21.8 (2.5) years; 19 female] and 23 older adults [mean: 72.8 (8.9) years; 19 female]. Accounting for age-related atrophy, we identified higher frontal and sensorimotor GSH levels for the older compared with the younger adults. For the older adults only, higher sensorimotor (but not frontal) GSH was correlated with poorer balance and gait. This suggests a regionally specific relationship between higher brain oxidative stress levels and motor performance declines with age. We suggest these findings reflect an upregulation of GSH in response to increasing brain oxidative stress with normal aging. Together, these results provide insight into age differences in brain antioxidant levels and implications for motor function.

AB - Brain markers of oxidative damage increase with advancing age. In response, brain antioxidant levels may also increase with age, although this has not been well investigated. Here, we used edited magnetic resonance spectroscopy to quantify endogenous levels of glutathione (GSH, one of the most abundant brain antioxidants) in 37 young [mean: 21.8 (2.5) years; 19 female] and 23 older adults [mean: 72.8 (8.9) years; 19 female]. Accounting for age-related atrophy, we identified higher frontal and sensorimotor GSH levels for the older compared with the younger adults. For the older adults only, higher sensorimotor (but not frontal) GSH was correlated with poorer balance and gait. This suggests a regionally specific relationship between higher brain oxidative stress levels and motor performance declines with age. We suggest these findings reflect an upregulation of GSH in response to increasing brain oxidative stress with normal aging. Together, these results provide insight into age differences in brain antioxidant levels and implications for motor function.

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In Vivo Brain Glutathione is Higher in Older Age and Correlates with Mobility

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Keywords

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