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环境丰容改善了年老 SAMP8 小鼠因牙齿缺失引起的少突胶质细胞发育不良、突触改变和记忆缺陷。

Environmental enrichment improves hypomyelination, synaptic alterations, and memory deficits caused by tooth loss in aged SAMP8 mice.

机构信息

Graduate School of Human Life Science, Nagoya Women's University, 3-40 Shioji-cho, Mizuho-ku, Nagoya, Aichi, 467-8610, Japan.

Departments of Pediatric Dentistry, Asahi University School of Dentistry, 1851 Hozumi, Mizuho, Gifu, 501-0296, Japan.

出版信息

Arch Oral Biol. 2021 Mar;123:105039. doi: 10.1016/j.archoralbio.2021.105039. Epub 2021 Jan 8.

DOI:10.1016/j.archoralbio.2021.105039
PMID:33454419
Abstract

OBJECTIVE

Prolonged mild stress due to tooth loss leads to morphologic and functional alterations of the hippocampus, as well as cognitive memory impairments in aged animals. An enriched environment improves stress-induced hippocampus-dependent cognitive impairments. The potential mechanisms underlying the beneficial effects of an enriched environment, however, remain unclear. In the present study, we investigated whether an enriched environment affects morphologic remodeling of the hippocampal myelin, synapses, and spatial learning deficits caused by tooth loss in aged senescence-accelerated mouse strain P8 (SAMP8) mice.

DESIGN

SAMP8 mice (8 months old) with either teeth intact or teeth extracted were raised in a standard or enriched environment for three weeks. Spatial learning and memory ability was evaluated in a Morris water maze test. The morphologic features of the myelin sheath and synapses in the hippocampus were investigated by electron microscopy.

RESULTS

Mice with tooth loss had a thinner myelin sheaths and shorter postsynaptic densities in the hippocampal CA1 region, and impaired hippocampus-dependent spatial learning ability. Exposure to an enriched environment ameliorated the hypomyelination and synaptic alterations, and spatial learning and memory impairments induced by tooth loss in aged SAMP8 mice.

CONCLUSION

Our findings indicate that an enriched environment ameliorates hippocampal hypomyelination and synapse morphologic abnormalities, as well as learning deficits induced by tooth loss in aged SAMP8 mice.

摘要

目的

由于牙齿缺失导致的长期轻度压力会导致海马体的形态和功能改变,以及老年动物的认知记忆障碍。丰富的环境可以改善应激引起的海马体依赖的认知障碍。然而,丰富环境有益影响的潜在机制仍不清楚。在本研究中,我们研究了丰富的环境是否会影响衰老加速模型小鼠(SAMP8)牙齿缺失引起的海马髓鞘、突触形态重塑和空间学习缺陷。

设计

将 8 个月大的 SAMP8 小鼠(牙齿完整或拔牙)分别置于标准环境或丰富环境中饲养 3 周。通过 Morris 水迷宫测试评估空间学习和记忆能力。通过电子显微镜观察海马的髓鞘和突触的形态特征。

结果

牙齿缺失的小鼠在海马 CA1 区的髓鞘较薄,突触后密度较短,并且空间学习能力受损。暴露于丰富的环境可改善因牙齿缺失导致的 SAMP8 老年小鼠的髓鞘脱失和突触改变,以及空间学习和记忆障碍。

结论

我们的研究结果表明,丰富的环境可改善因牙齿缺失导致的 SAMP8 老年小鼠的海马体髓鞘脱失和突触形态异常,以及学习障碍。

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