Nathalie Sumien, Ph.D.
Permanent URI for this communityhttps://hdl.handle.net/20.500.12503/31527
Member, Institute for Healthy Aging
Associate Professor, Pharmacology & Neuroscience
Email: nathalie.sumien@unthsc.edu
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Browsing Nathalie Sumien, Ph.D. by Subject "aging"
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Item ApoE Genotype-Dependent Response to Antioxidant and Exercise Interventions on Brain Function(MDPI, 2020-06-25) Chaudhari, Kiran; Wong, Jessica M.; Vann, Philip H.; Como, Tori; O'Bryant, Sid E.; Sumien, NathalieThis study determined whether antioxidant supplementation is a viable complement to exercise regimens in improving cognitive and motor performance in a mouse model of Alzheimer's disease risk. Starting at 12 months of age, separate groups of male and female mice expressing human Apolipoprotein E3 (GFAP-ApoE3) or E4 (GFAP-ApoE4) were fed either a control diet or a diet supplemented with vitamins E and C. The mice were further separated into a sedentary group or a group that followed a daily exercise regimen. After 8 weeks on the treatments, the mice were administered a battery of functional tests including tests to measure reflex and motor, cognitive, and affective function while remaining on their treatment. Subsequently, plasma inflammatory markers and catalase activity in brain regions were measured. Overall, the GFAP-ApoE4 mice exhibited poorer motor function and spatial learning and memory. The treatments improved balance, learning, and cognitive flexibility in the GFAP-ApoE3 mice and overall the GFAP-ApoE4 mice were not responsive. The addition of antioxidants to supplement a training regimen only provided further benefits to the active avoidance task, and there was no antagonistic interaction between the two interventions. These outcomes are indicative that there is a window of opportunity for treatment and that genotype plays an important role in response to interventions.Item Gait Analyses in Mice: Effects of Age and Glutathione Deficiency(International Society on Aging and Disease, 2018-08-01) Mock, J. Thomas; Knight, Sherilynn G.; Vann, Philip H.; Wong, Jessica M.; Davis, Delaney L.; Forster, Michael J.; Sumien, NathalieMinor changes (~0.1 m/s) in human gait speed are predictive of various measures of decline and can be used to identify at-risk individuals prior to further decline. These associations are possible due to an abundance of human clinical research. However, age-related gait changes are not well defined in rodents, even though rodents are used as the primary pre-clinical model for many disease states as well as aging research. Our study investigated the usefulness of a novel automated system, the CatWalk XT, to measure age-related differences in gait. Furthermore, age-related functional declines have been associated with decreases in the reduced to oxidized glutathione ratio leading to a pro-oxidizing cellular shift. Therefore the secondary aim of this study was to determine whether chronic glutathione deficiency led to exacerbated age-associated impairments. Groups of male and female wild-type (gclm(+/+)) and knock-out (gclm(-/-)) mice aged 4, 10 and 17 months were tested on the CatWalk and gait measurements recorded. Similar age-related declines in all measures of gait were observed in both males and females, and chronic glutathione depletion was associated with some delays in age-related declines, which were further exacerbated. In conclusion, the CatWalk is a useful tool to assess gait changes with age, and further studies will be required to identify the potential compensating mechanisms underlying the effects observed with the chronic glutathione depletion.