Voluntary wheel running is capable of improving cognitive function only in the young but not the middle-aged male APPSwe/PS1De9 mice

To determine whether voluntary wheel running could improve cognitive function from both the young and middle-aged APP/PS1 mice and the underlying mechanisms involved in. Young (9-weeks old) and middle-aged (24-weeks old) APP/PS1 mice were randomly assigned into control and exercise groups, respectiv...

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Bibliographic Details
Published in:Neurochemistry international 2021-05, Vol.145, p.105010-105010, Article 105010
Main Authors: Wang, Guiping, Zhou, Huan-Huan, Luo, Lan, Qin, Li-Qiang, Yin, Jieyun, Yu, Zengli, Zhang, Lin, Wan, Zhongxiao
Format: Article
Language:English
Subjects:
Alzheimer's disease
gut microbiota
Metabolomics
Tau
Voluntary exercise
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Summary:To determine whether voluntary wheel running could improve cognitive function from both the young and middle-aged APP/PS1 mice and the underlying mechanisms involved in. Young (9-weeks old) and middle-aged (24-weeks old) APP/PS1 mice were randomly assigned into control and exercise groups, respectively. Mice from exercise group had free and unlimited access to the running wheel for a total of 16 weeks. Voluntary exercise only improved cognitive function from young but not the middle-aged APP/PS1 mice. This might be owing to that in young APP/PS1 mice voluntary exercise reduced tau phosphorylation via inhibiting p-GSK3β activity, as well as reduced neuro-inflammation and elevated key proteins involved in synaptic plasticity. Additionally, exercise also elevated circulating L-Valine, Glucosamine, Formylanthranilic acid, Myristic acid level and improved gut microbiota profiles (i.e. elevated Oscillibacter, EF097061_g, EU454870_g, EU504554_g, EU505046_g and EF096172_g and reduced Alistipes). Improved circulating metabolites and intestinal microbiome might also contribute to improved learning and memory abilities post exercise. For the middle-aged APP/PS1 mice, exercise reduced ADAM10 and GFAP protein expression in hippocampus, with no notable alterations in circulating metabolites; additionally, mice from exercise group had markedly reduced abundance of the phyla Proteobacteria and Tenericutes, genera Bacteroides and Faecalibacterium, and elevated abundance of the genera Allobaculum. It is suggested that voluntary exercise should be initiated at an early adulthood period rather than at late stage in order to prevent cognitive decline or Alzheimer's disease. Voluntary running only improved cognitive function in the young but not the middle-aged APP/PS1 mice. Mechanistically, improved cognitive function post voluntary exercise might be owing to its beneficial effects on traditional AD pathology (i.e. voluntary exercise reduced tau phosphorylation via inhibiting p-GSK3β activity, as well as reduced neuro-inflammation and elevated key proteins involved in synaptic plasticity including BDNF and synaptophysin). Additionally, exercise also positively altered circulating metabolites, especially elevated circulating L-Valine, Glucosamine, Formylanthranilic acid, Myristic acid level. Also, exercise improved gut microbiota profiles (i.e. elevated Oscillibacter, EF097061_g, EU454870_g, EU504554_g, EU505046_g and EF096172_g and reduced Alistipes). Improved circulating meta
ISSN:0197-0186
1872-9754
DOI:10.1016/j.neuint.2021.105010