miR-93-5p impairs autophagy-lysosomal pathway via TET3 after subarachnoid hemorrhage

IF 4.6 2区医学 Q1 NEUROSCIENCES

Experimental Neurology Pub Date : 2024-07-31 DOI:10.1016/j.expneurol.2024.114904

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Abstract

Intact autophagy-lysosomal pathway (ALP) in neuronal survival is crucial. However, it remains unclear whether ALP is intact after subarachnoid hemorrhage (SAH). Ten-eleven translocation (TET) 3 primarily regulates genes related to autophagy in neurons in neurodegenerative diseases. This study aims to investigate the role of TET3 in the ALP following SAH. The results indicate that the ALP is impaired after SAH, with suppressed autophagic flux and an increase in autophagosomes. This is accompanied by a decrease in TET3 expression. Activation of TET3 by α-KG can improve ALP function and neural function to some extent. Silencing TET3 in neurons significantly inhibited the ALP function and increased apoptosis. Inhibition of miR-93-5p, which is elevated after SAH, promotes TET3 expression. This suggests that the downregulation of TET3 after SAH is, at least in part, due to elevated miR-93-5p. This study clarifies the key role of TET3 in the functional impairment of the ALP after SAH. The preliminary exploration revealed that miR-93-5p could lead to the downregulation of TET3, which could be a new target for neuroprotective therapy after SAH.

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蛛网膜下腔出血后，miR-93-5p 通过 TET3 损伤自噬-溶酶体通路

完整的自噬-溶酶体途径（ALP）对神经元的存活至关重要。然而，蛛网膜下腔出血（SAH）后 ALP 是否完好仍不清楚。在神经退行性疾病中，十-十一易位（TET）3 主要调控神经元中与自噬相关的基因。本研究旨在探讨 TET3 在 SAH 后 ALP 中的作用。结果表明，SAH 后 ALP 受损，自噬通量受抑制，自噬体增加。与此同时，TET3的表达也有所下降。通过α-KG激活TET3可在一定程度上改善ALP功能和神经功能。沉默神经元中的 TET3 可明显抑制 ALP 功能并增加细胞凋亡。抑制 SAH 后升高的 miR-93-5p 可促进 TET3 的表达。这表明，SAH 后 TET3 的下调至少部分是由于 miR-93-5p 的升高。这项研究阐明了 TET3 在 SAH 后 ALP 功能损伤中的关键作用。初步研究发现，miR-93-5p 可导致 TET3 下调，这可能是 SAH 后神经保护疗法的新靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Experimental Neurology 医学-神经科学

CiteScore

10.10

自引率

3.80%

发文量

258

审稿时长

42 days

期刊介绍： Experimental Neurology, a Journal of Neuroscience Research, publishes original research in neuroscience with a particular emphasis on novel findings in neural development, regeneration, plasticity and transplantation. The journal has focused on research concerning basic mechanisms underlying neurological disorders.