Whole-Body Vibration Affects Hippocampal Choline Acetyltransferase and Synaptophysin Expression and Improves Spatial Memory in Young Adult Mice.

IF 2.5 4区医学 Q3 NEUROSCIENCES Journal of integrative neuroscience Pub Date : 2024-09-23 DOI:10.31083/j.jin2309173

Tamás Oroszi, Wouter Huiting, Jan N Keijser, Csaba Nyakas, Marieke J G van Heuvelen, Eddy A van der Zee

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Abstract

Background: Beneficial effects of whole-body vibration (WBV) on brain and musculoskeletal health in mice have been demonstrated, but underlying mechanisms remain relatively unrevealed. WBV improves attention and memory performance in mice, putatively through stimulation of the cholinergic system. Here, we investigated the effects of WBV on the septo-hippocampal cholinergic system.

Methods: Young C57BL/6 mice (8 weeks old) were subjected to 10 min WBV/day (mechanical vibration: 30 Hz; ~0.1-μm peak-to-peak displacement), 5X/week for 5 weeks. In Experiment 1, choline acetyltransferase (ChAT)-immunoreactivity in the septum and hippocampus was analyzed either 2 or 24 h after the last WBV session. Pseudo-WBV-treated mice (same handling procedure as WBV, but no vibrations) served as controls. In Experiment 2, the longitudinal profile of ChAT-immunoreactivity was analyzed in the hippocampus after 1, 2, 3, 4, or 5 weeks of WBV. In addition, synaptophysin immunostaining was performed at either 2 and 5 weeks of WBV. Mice housed 1/cage during the entire experiment served as controls. The balance-beam test was used to monitor the functional impact of WBV. In Experiment 3, a Y-maze reference-memory test was performed after 5 weeks of WBV to obtain a functional cognitive outcome measure of WBV. Pseudo-WBV treated mice served as controls.

Results: In Experiment 1, ChAT-immunoreactivity was significantly enhanced after the last WBV session of the 5-week period. This was found in the septum, Cornu Ammonis 1 (CA1), CA3, and dentate gyrus, and was dependent on layer and time-point (2 or 24 h). Experiment 2 revealed that, ChAT-immunoreactivity was lower after 2 weeks of WBV, whereas it was significantly higher after 5 weeks (similar to in Experiment 1). Immunostaining for synaptophysin, a marker for synaptic density, was also significantly higher after 5 weeks of WBV, but not significantly lower after 2 weeks, as was ChAT. WBV-treated groups performed significantly better than did controls on the balance beam from week 3 onwards. Experiment 3 showed that WBV-treated mice had better spatial-reference memory performance in the Y-maze test than did pseudo-WBV controls.

Conclusions: Our results indicate that WBV stimulates the septo-hippocampal cholinergic system in a gradual and dynamic way that may contribute to improved spatial-memory performance. This finding suggests that WBV, by upregulation of the septo-hippocampal cholinergic system, may be considered a valuable therapeutic strategy to enhance brain functions in aging, neurodegenerative, and other brain diseases.

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全身振动影响海马胆碱乙酰转移酶和突触素的表达并改善年轻成年小鼠的空间记忆

背景：全身振动（WBV）对小鼠大脑和肌肉骨骼健康的有益影响已经得到证实，但其潜在机制仍未得到揭示。全身振动可提高小鼠的注意力和记忆力，这可能是通过刺激胆碱能系统实现的。在此，我们研究了 WBV 对隔海马胆碱能系统的影响：年轻的 C57BL/6 小鼠（8 周大）每天接受 10 分钟 WBV（机械振动：30 Hz；~0.1-μm 峰-峰位移），每周 5 次，共 5 周。在实验 1 中，在最后一次 WBV 治疗后 2 或 24 小时分析了隔膜和海马的胆碱乙酰转移酶（ChAT）免疫反应。假WBV处理的小鼠（处理程序与WBV相同，但无振动）作为对照组。在实验 2 中，分析了 WBV 1、2、3、4 或 5 周后海马中 ChAT 免疫反应的纵向分布。此外，还在 WBV 2 周和 5 周时进行了突触素免疫染色。在整个实验过程中，每笼饲养 1 只小鼠作为对照组。平衡木测试用于监测 WBV 对功能的影响。在实验 3 中，WBV 5 周后进行了 Y 型迷宫参照记忆测试，以获得 WBV 的功能性认知结果测量值。假WBV处理的小鼠作为对照组：在实验 1 中，为期 5 周的最后一次 WBV 训练后，ChAT 免疫反应性显著增强。这种现象出现在隔膜、Cornu Ammonis 1 (CA1)、CA3 和齿状回，并与层和时间点（2 或 24 小时）有关。实验 2 显示，WBV 2 周后，ChAT 免疫活性降低，而 5 周后，ChAT 免疫活性显著升高（与实验 1 相似）。突触素是突触密度的标记物，其免疫染色在接受 WBV 5 周后也明显升高，但在接受 WBV 2 周后并没有像 ChAT 一样明显降低。从第 3 周开始，WBV 治疗组在平衡木上的表现明显优于对照组。实验 3 显示，经 WBV 治疗的小鼠在 Y 型迷宫测试中的空间参照记忆表现优于假 WBV 对照组：我们的研究结果表明，WBV能以一种渐进和动态的方式刺激隔海马胆碱能系统，这可能有助于提高空间记忆能力。这一发现表明，通过上调海马七胆碱能系统，WBV 可被视为一种有价值的治疗策略，可增强衰老、神经退行性疾病和其他脑部疾病的脑功能。

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来源期刊

Journal of integrative neuroscience 医学-神经科学

CiteScore

2.80

自引率

5.60%

发文量

173

审稿时长

2 months

期刊介绍： JIN is an international peer-reviewed, open access journal. JIN publishes leading-edge research at the interface of theoretical and experimental neuroscience, focusing across hierarchical levels of brain organization to better understand how diverse functions are integrated. We encourage submissions from scientists of all specialties that relate to brain functioning.