Effects of early exercise intervention and exercise cessation on neuronal loss and neuroinflammation in a senescence-accelerated mouse prone 8

神经炎症 认知功能衰退 海马体 小胶质细胞 神经营养因子 体育锻炼 医学 内科学 脑源性神经营养因子 衰老 神经科学 心理学 内分泌学 炎症 疾病 痴呆 受体
作者
Kazuki Nakanishi,Kosuke Norimatsu,Akira Tani,Teruki Matsuoka,Ryoma Matsuzaki,Shogo Kakimoto,Nao Nojima,Yuta Tachibe,Yuki Kato,Masaki Inadome,Riho Kitazato,Shotaro Otsuka,Seiya Takada,Megumi Sumizono,Harutoshi Sakakima
出处
期刊:Neuroscience Letters [Elsevier BV]
卷期号:808: 137297-137297 被引量:4
标识
DOI:10.1016/j.neulet.2023.137297
摘要

Physical exercise is beneficial for preventing Alzheimer's disease (AD) and cognitive decline through several mechanisms, including suppression of neuroinflammation and neuronal loss in the hippocampus. Despite these exercise-induced benefits in AD pathology, less attention has been paid to the importance of maintaining exercise and the consequences of detraining. This study aimed to investigate the effects of early exercise intervention and detraining on age-related cognitive decline and its protective mechanisms using senescence-accelerated mouse prone 8 (SAMP8). These mice were divided to four groups: no-exercise (No-Ex, n = 9), 4 months (4 M)-detraining (n = 11), 2 months (2 M)-detraining (n = 11), and long-term exercise (LT-Ex, n = 13). Age-related cognitive decline was prevented in the LT-Ex group compared with the No-Ex group through the suppression of neuronal loss, enhanced brain-derived neurotrophic factor (BDNF), and inhibition of neuroinflammation corresponding to reduced M1 and increased M2 microglia in the hippocampus. No significant differences were observed in cognitive function between the detraining and No-Ex groups. However, the 2 M-detraining group showed increased BDNF positive area in the CA1 region and the enhancement of anti-inflammatory M2 phenotype microglia. In contrast, no statistically beneficial exercise-induced changes in the hippocampus were observed in the 4 M-detrainig group. These results showed that early exercise intervention prevented age-related cognitive deficits in AD progression by suppressing neuronal loss and neuroinflammation in the hippocampus. Exercise-induced benefits, including the anti-inflammation in the hippocampus, may be retained after exercise cessation, even if exercise-induced beneficial effects decline in a time-dependent manner.

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