Exercise Alleviates Fluoride-Induced Learning and Memory Impairment in Mice: Role of miR-206-3p and PREG.

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

ACS Applied Electronic Materials Pub Date : 2024-11-01 Epub Date: 2024-01-20 DOI:10.1007/s12011-024-04068-w

Lei Chai, Qiqi Cao, Ke Liu, Run Zhu, Hao Li, Yanghuan Yu, Jixiang Wang, Ruiyan Niu, Ding Zhang, Bo Yang, Mohammad Mehdi Ommati, Zilong Sun

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Abstract

Fluorosis decreases the learning and memory ability in humans and animals, while exercise can reduce the risk of cognitive decline. However, the effect of exercise on learning and memory in fluoride-exposed mice is unclear. For this purpose, in this study, mice were randomly allotted into four groups (16 mice per group, half male and half female): control group (group C), fluoride group (group F, 100 mg/L sodium fluoride (NaF)), exercise group (group E, treadmill exercise), and E plus F group (group EF, treadmill exercise, and 100 mg/L NaF). During 6 months of exposure, exercise alleviated the NaF-induced decline in memory and learning. In addition, NaF induced injuries in mitochondria and myelin sheath ultrastructure and reduced the neurons number, while exercise restored them. Metabolomics results showed that phosphatidylethanolamine, pregnenolone (PREG), and lysophosphatidic acid (LysoPA) were altered among groups C, F, and EF. Combined with previous studies, it can be suggested that PREG might be a biomarker in response to exercise-relieving fluorine neurotoxicity. The miRNA sequencing results indicated that in the differently expressed miRNAs (DEmiRNAs), miR-206-3p, miR-96-5p, and miR-144-3p were shared in groups C, F, and EF. After the QRT-PCR validation and in vitro experiments, it was proved that miR-206-3p could reduce cell death and regulate AP-1 transcription factor subunit (JunD) and histone deacetylase 4 (HDAC4) to alleviate fluoride neurotoxicity. To sum up, the current study reveals that exercise could alleviate NaF-induced neurotoxicity by targeting miR-206-3p or PREG, which will contribute to revealing the pathogenesis and therapeutic method of fluoride neurotoxicity.

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运动可缓解氟化物诱导的小鼠学习和记忆损伤：miR-206-3p 和 PREG.

氟中毒会降低人类和动物的学习和记忆能力，而运动可以降低认知能力下降的风险。然而，运动对氟暴露小鼠学习和记忆能力的影响尚不清楚。为此，本研究将小鼠随机分为四组（每组 16 只，雌雄各半）：对照组（C 组）、氟化物组（F 组，100 毫克/升氟化钠（NaF））、运动组（E 组，跑步机运动）和 E 加 F 组（EF 组，跑步机运动和 100 毫克/升 NaF）。在接触 NaF 的 6 个月期间，运动缓解了 NaF 引起的记忆和学习能力下降。此外，NaF导致线粒体和髓鞘超微结构损伤，并减少了神经元数量，而运动则恢复了这些损伤。代谢组学结果显示，C组、F组和EF组的磷脂酰乙醇胺、孕烯醇酮（PREG）和溶血磷脂酸（LysoPA）发生了变化。结合之前的研究，可以认为 PREG 可能是运动缓解氟神经毒性的生物标志物。miRNA 测序结果表明，在不同表达的 miRNAs（DEmiRNAs）中，C 组、F 组和 EF 组共有 miR-206-3p、miR-96-5p 和 miR-144-3p。经过 QRT-PCR 验证和体外实验证明，miR-206-3p 能减少细胞死亡，并能调节 AP-1 转录因子亚基（JunD）和组蛋白去乙酰化酶 4（HDAC4），从而减轻氟化物的神经毒性。综上所述，本研究揭示了运动可通过靶向 miR-206-3p 或 PREG 缓解 NaF 诱导的神经毒性，这将有助于揭示氟神经毒性的发病机制和治疗方法。

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来源期刊

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567