基于转录组测序的不同脑区衰老小鼠运动的生物信息学分析与实验验证

Bioinformatics Analysis and Experimental Verification of Exercise for Aging Mice in Different Brain Regions Based on Transcriptome Sequencing.

作者信息

Jin Yu, Wei Changling, Huang Xiaohan, Zhang Deman, Zhang Li, Li Xue

机构信息

School of Sport Medicine and Health, Chengdu Sport University, Chengdu 610041, China.

Joint International Research Laboratory of CNS Regeneration, Guangdong-Hong Kong-Macau Institute of CNS Regeneration, Jinan University, Guangzhou 510632, China.

出版信息

Life (Basel). 2023 Sep 29;13(10):1988. doi: 10.3390/life13101988.

DOI:10.3390/life13101988

PMID:37895370

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10608440/

Abstract

PURPOSE

Physical exercise mitigates the effects of aging and cognitive decline. However, the precise neurobiological mechanisms underlying this phenomenon remain unclear. The primary aim of this study was to investigate the protective effect of exercise on age-related memory deficits in the prefrontal cortex (PFC) and hippocampus using bioinformatic analysis and biochemical verification.

METHODS

Young and aging mice were subjected to natural feeding or treadmill exercise (12 m/min, 8 weeks). Cognitive function was accessed using the Barnes maze and novel object recognition. Bioinformatic analysis was performed to identify co-expressed genes in different groups and brain regions. The selected genes and pathways were validated using RT-qPCR.

RESULTS

Regular exercise significantly ameliorated age-related cognitive deficits. Four up-regulated targets (Ifi27l2a, Irf7, Oas1b, Ifit1) and one down-regulation (Septin2) were reversed by exercise, demonstrating the underlying mechanisms of cognitive functions induced by aging with exercise in the hippocampus and PFC. The Gene Ontology terms and Kyoto Encyclopedia of Genes and Genomes pathway enrichment analyses indicated that the NOD-like receptor signaling pathway was inhibited in the neuroinflammation effects of exercise in aging mice in both brain regions.

CONCLUSION

Exercise enhances age-related learning and memory deficits. This beneficial effect may be attributed to the changes in five up/down-regulated genes and the NOD-like receptor signaling pathway in both the hippocampus and PFC. These findings establish the modulation of neuroinflammation as a pivotal molecular mechanism supporting exercise intervention in the brain aging process.

摘要

目的

体育锻炼可减轻衰老和认知衰退的影响。然而，这一现象背后确切的神经生物学机制仍不清楚。本研究的主要目的是通过生物信息学分析和生化验证，研究运动对前额叶皮质（PFC）和海马体中与年龄相关的记忆缺陷的保护作用。

方法

对年轻和老龄小鼠进行自然喂养或跑步机运动（12米/分钟，8周）。使用巴恩斯迷宫和新物体识别测试认知功能。进行生物信息学分析以鉴定不同组和脑区中的共表达基因。使用RT-qPCR对所选基因和通路进行验证。

结果

规律运动显著改善了与年龄相关的认知缺陷。运动逆转了四个上调靶点（Ifi27l2a、Irf7、Oas1b、Ifit1）和一个下调靶点（Septin2），揭示了运动对海马体和PFC中衰老诱导的认知功能的潜在机制。基因本体论术语和京都基因与基因组百科全书通路富集分析表明，在两个脑区中，衰老小鼠运动的神经炎症效应中NOD样受体信号通路受到抑制。

结论

运动可改善与年龄相关的学习和记忆缺陷。这种有益作用可能归因于海马体和PFC中五个上调/下调基因以及NOD样受体信号通路的变化。这些发现确定了神经炎症的调节是支持运动干预脑衰老过程的关键分子机制。

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基于转录组测序的不同脑区衰老小鼠运动的生物信息学分析与实验验证

Bioinformatics Analysis and Experimental Verification of Exercise for Aging Mice in Different Brain Regions Based on Transcriptome Sequencing.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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