The Effect of Exercise on Depression and Gut Microbiota: Possible Mechanisms.

IF 3.5 3区 医学 Q2 NEUROSCIENCES Brain Research Bulletin Pub Date : 2024-11-16 DOI:10.1016/j.brainresbull.2024.111130
Mingchen Yao, Yaqi Qu, Yalin Zheng, Hao Guo
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Abstract

Exercise can effectively prevent and treat depression and anxiety, with gut microbiota playing a crucial role in this process. Studies have shown that exercise can influence the diversity and composition of gut microbiota, which in turn affects depression through immune, endocrine, and neural pathways in the gut-brain axis. The effectiveness of exercise varies based on its type, intensity, and duration, largely due to the different changes in gut microbiota. This article summarizes the possible mechanisms by which exercise affects gut microbiota and how gut microbiota influences depression. Additionally, we reviewed literature on the effects of exercise on depression at different intensities, types, and durations to provide a reference for future exercise-based therapies for depression.

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运动对抑郁和肠道微生物群的影响:可能的机制
运动可以有效预防和治疗抑郁症和焦虑症,而肠道微生物群在这一过程中起着至关重要的作用。研究表明,运动可以影响肠道微生物群的多样性和组成,进而通过肠道-大脑轴的免疫、内分泌和神经通路影响抑郁症。运动的效果因其类型、强度和持续时间而异,这主要是由于肠道微生物群发生了不同的变化。本文总结了运动影响肠道微生物群的可能机制,以及肠道微生物群如何影响抑郁症。此外,我们还回顾了不同强度、类型和持续时间的运动对抑郁症影响的文献,为未来基于运动的抑郁症疗法提供参考。
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来源期刊
Brain Research Bulletin
Brain Research Bulletin 医学-神经科学
CiteScore
6.90
自引率
2.60%
发文量
253
审稿时长
67 days
期刊介绍: The Brain Research Bulletin (BRB) aims to publish novel work that advances our knowledge of molecular and cellular mechanisms that underlie neural network properties associated with behavior, cognition and other brain functions during neurodevelopment and in the adult. Although clinical research is out of the Journal''s scope, the BRB also aims to publish translation research that provides insight into biological mechanisms and processes associated with neurodegeneration mechanisms, neurological diseases and neuropsychiatric disorders. The Journal is especially interested in research using novel methodologies, such as optogenetics, multielectrode array recordings and life imaging in wild-type and genetically-modified animal models, with the goal to advance our understanding of how neurons, glia and networks function in vivo.
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