Deacetylase SIRT2 Inhibition Promotes Microglial M2 Polarization Through Axl/PI3K/AKT to Alleviate White Matter Injury After Subarachnoid Hemorrhage.

IF 3.8 2区 医学 Q1 CLINICAL NEUROLOGY
Kaikun Yuan, Qiaowei Wu, Yanting Yao, Jiang Shao, Shiyi Zhu, Jinshuo Yang, Qi Sun, Junjie Zhao, Jiayi Xu, Pei Wu, Yuchen Li, Huaizhang Shi
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Abstract

White matter injury (WMI) subsequent to subarachnoid hemorrhage (SAH) frequently leads to an unfavorable patient prognosis. Previous studies have indicated that microglial M1 polarization following SAH results in the accumulation of amyloid precursor protein (APP) and degradation of myelin basic protein (MBP), thereby catalyzing the exacerbation of WMI. Consequently, transitioning microglial polarization towards the M2 phenotype (neuroprotective state) represents a potential therapeutic approach for reversing WMI. The SIRT2 gene is pivotal in neurological disorders such as neurodegeneration and ischemic stroke. However, its function and underlying mechanisms in SAH, particularly how it influences microglial function to ameliorate WMI, remain unclear. Our investigations revealed that in post-SAH, there was a temporal increase in SIRT2 expression, predominantly in the cerebral corpus callosum area, with notable colocalization with microglia. However, following the administration of the SIRT2 inhibitor AK-7, a shift in microglial polarization towards the M2 phenotype and an improvement in both short-term and long-term neuronal functions in rats were observed. Mechanistically, CO-IP experiments confirmed that SIRT2 can interact with the receptor tyrosine kinase Axl within the TAM receptor family and act as a deacetylase to regulate the deacetylation of Axl. Concurrently, the inhibition of SIRT2 by AK-7 can lead to increased expression of Axl and activation of the anti-inflammatory pathway PI3K/Akt signaling pathway, which regulates microglial M2 polarization and consequently reduces WMI. However, when Axl expression was inhibited by the injection of the shAxl virus into the lateral ventricles, the downstream signaling pathways were significantly suppressed. Rescue experiments also confirmed that the neuroprotective effects of AK-7 can be reversed by PI3K inhibitors. These data suggest that SIRT2 influences WMI by affecting microglial polarization through the Axl/PI3K/AKT pathway, and that AK-7 could serve as an effective therapeutic drug for improving neurological functions in SAH patients.

Abstract Image

去乙酰化酶 SIRT2抑制通过Axl/PI3K/AKT促进小胶质细胞M2极化,减轻蛛网膜下腔出血后的白质损伤
蛛网膜下腔出血(SAH)后的白质损伤(WMI)经常导致患者预后不良。以往的研究表明,蛛网膜下腔出血后小胶质细胞的 M1 极化会导致淀粉样前体蛋白(APP)的积累和髓鞘碱性蛋白(MBP)的降解,从而催化白质损伤的恶化。因此,将小胶质细胞极化转变为 M2 表型(神经保护状态)是逆转 WMI 的一种潜在治疗方法。SIRT2 基因在神经变性和缺血性中风等神经系统疾病中起着关键作用。然而,它在 SAH 中的功能和潜在机制,尤其是它如何影响小胶质细胞功能以改善 WMI,仍不清楚。我们的研究发现,在 SAH 后,SIRT2 的表达呈时间性增加,主要在大脑胼胝体区域,并与小胶质细胞显著共定位。然而,在服用 SIRT2 抑制剂 AK-7 后,大鼠的小胶质细胞极化向 M2 表型转变,短期和长期神经元功能均得到改善。从机理上讲,CO-IP 实验证实 SIRT2 可与 TAM 受体家族中的受体酪氨酸激酶 Axl 相互作用,并作为去乙酰化酶调节 Axl 的去乙酰化。同时,AK-7 对 SIRT2 的抑制可导致 Axl 表达增加,并激活抗炎通路 PI3K/Akt 信号通路,从而调节小胶质细胞 M2 极化,进而降低 WMI。然而,当向侧脑室注射 shAxl 病毒抑制 Axl 表达时,下游信号通路被显著抑制。拯救实验还证实,AK-7 的神经保护作用可被 PI3K 抑制剂逆转。这些数据表明,SIRT2通过Axl/PI3K/AKT通路影响小胶质细胞极化,从而影响WMI,AK-7可作为一种有效的治疗药物改善SAH患者的神经功能。
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来源期刊
Translational Stroke Research
Translational Stroke Research CLINICAL NEUROLOGY-NEUROSCIENCES
CiteScore
13.80
自引率
4.30%
发文量
130
审稿时长
6-12 weeks
期刊介绍: Translational Stroke Research covers basic, translational, and clinical studies. The Journal emphasizes novel approaches to help both to understand clinical phenomenon through basic science tools, and to translate basic science discoveries into the development of new strategies for the prevention, assessment, treatment, and enhancement of central nervous system repair after stroke and other forms of neurotrauma. Translational Stroke Research focuses on translational research and is relevant to both basic scientists and physicians, including but not restricted to neuroscientists, vascular biologists, neurologists, neuroimagers, and neurosurgeons.
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