Felodipine attenuates neuroinflammatory responses and tau hyperphosphorylation through JNK/P38 signaling in tau-overexpressing AD mice.

IF 3.3 3区医学 Q2 NEUROSCIENCES Molecular Brain Pub Date : 2024-09-02 DOI:10.1186/s13041-024-01137-y

Jeong-Woo Hwang, Jeongha Kim, Jin-Hee Park, Jinhan Nam, Ji-Yeong Jang, Aran Jo, Hyun-Ju Lee, Hyang-Sook Hoe

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引用次数: 0

Abstract

We previously demonstrated that felodipine, an L-type calcium channel blocker, inhibits LPS-mediated neuroinflammatory responses in BV2 microglial cells and wild-type mice. However, the effects of felodipine on tau pathology, a hallmark of Alzheimer's disease (AD), have not been explored yet. Therefore, in the present study, we determined whether felodipine affects neuroinflammation and tau hyperphosphorylation in 3-month-old P301S transgenic mice (PS19), an early phase AD mice model for tauopathy. Felodipine administration decreased tauopathy-mediated microglial activation and NLRP3 expression in PS19 mice but had no effect on tauopathy-associated astrogliosis. In addition, felodipine treatment significantly reduced tau hyperphosphorylation at S202/Thr205 and Thr212/Ser214 residues via inhibiting JNK/P38 signaling in PS19 mice. Collectively, our results suggest that felodipine significantly ameliorates tau hyper-phosphorylation and tauopathy-associated neuroinflammatory responses in AD mice model for tauopathy and could be a novel therapeutic agent for AD.

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非洛地平通过JNK/P38信号转导减轻tau过表达AD小鼠的神经炎症反应和tau高磷酸化。

我们曾证实，L 型钙通道阻滞剂非洛地平能抑制 LPS 介导的 BV2 小胶质细胞和野生型小鼠的神经炎症反应。然而，非洛地平对阿尔茨海默病（AD）的标志性病变--tau病理学的影响尚未得到探讨。因此，在本研究中，我们测定了非洛地平是否会影响3月龄P301S转基因小鼠（PS19）的神经炎症和tau高磷酸化。非洛地平能降低PS19小鼠中tauopathy介导的小胶质细胞活化和NLRP3的表达，但对tauopathy相关的星形胶质细胞增生没有影响。此外，非洛地平还能通过抑制 PS19 小鼠体内的 JNK/P38 信号转导，显著降低 tau 在 S202/Thr205 和 Thr212/Ser214 残基上的过度磷酸化。总之，我们的研究结果表明，非洛地平能明显改善AD小鼠tau高磷酸化和与tau病相关的神经炎症反应，可能是一种新型的AD治疗药物。

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来源期刊

Molecular Brain NEUROSCIENCES-

CiteScore

7.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Molecular Brain is an open access, peer-reviewed journal that considers manuscripts on all aspects of studies on the nervous system at the molecular, cellular, and systems level providing a forum for scientists to communicate their findings. Molecular brain research is a rapidly expanding research field in which integrative approaches at the genetic, molecular, cellular and synaptic levels yield key information about the physiological and pathological brain. These studies involve the use of a wide range of modern techniques in molecular biology, genomics, proteomics, imaging and electrophysiology.