二甲双胍对免疫受损小鼠下丘脑星形胶质细胞的影响

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-18 DOI:10.1016/j.biochi.2024.04.005
Larissa Daniele Bobermin , Daniele Schauren da Costa , Aline Daniel Moreira de Moraes , Vanessa Fernanda da Silva , Giancarlo Tomazzoni de Oliveira , Patrícia Sesterheim , Ana Carolina Tramontina , Luiz Augusto Basso , Guilhian Leipnitz , André Quincozes-Santos , Carlos-Alberto Gonçalves
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引用次数: 0

摘要

星形胶质细胞是神经胶质细胞,在神经炎症中发挥着关键作用,而神经炎症是糖尿病脑病和衰老过程中的常见特征。二甲双胍是一种抗糖尿病化合物,具有神经保护特性,包括在炎症模型中,但星形胶质细胞的信号通路仍鲜为人知。干扰素α/β是参与抗病毒反应的细胞因子,缺乏它们的信号传导会增加对病毒感染的易感性。在此,我们研究了二甲双胍对下丘脑星形胶质细胞的影响,下丘脑是与炎症过程相关的重要脑区。星形胶质细胞培养物来自干扰素α/β受体敲除(IFNα/βR-/-)小鼠和野生型(WT)小鼠。二甲双胍没有改变神经胶质纤维酸性蛋白的表达,但通过减少促炎细胞因子(肿瘤坏死因子-α和白细胞介素-1β)以及增加抗炎蛋白白细胞介素-10和Nrf2(核因子红细胞衍生2类似物2)的基因表达,产生了抗炎作用。然而,核因子κB p65 和环氧化酶 2 在 WT 星形胶质细胞中下调,而在 IFNα/βR-/ 星形胶质细胞中上调。二甲双胍的分子靶点--AMPK仅在WT星形胶质细胞中上调,而sirtuin 1在两种小鼠模型中均有所增加。在 WT 星形胶质细胞中,诱导型一氧化氮合酶的表达减少,而在 IFNα/βR-/ 星形胶质细胞中,血红素加氧酶 1 的表达增加。虽然 IFNα/βR 介导的信号转导的缺失会影响二甲双胍的某些作用,但我们的研究结果支持这种药物在下丘脑星形胶质细胞中的有益作用。此外,二甲双胍的矛盾反应可能与 AMPK 有关。因此,由于二甲双胍对非糖尿病和糖尿病脑病患者年龄相关疾病的影响,它可以介导神经胶质保护。
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Effect of metformin in hypothalamic astrocytes from an immunocompromised mice model

Astrocytes are glial cells that play key roles in neuroinflammation, which is a common feature in diabetic encephalopathy and aging process. Metformin is an antidiabetic compound that shows neuroprotective properties, including in inflammatory models, but astroglial signaling pathways involved are still poorly known. Interferons α/β are cytokines that participate in antiviral responses and the lack of their signaling increases susceptible to viral infections. Here, we investigated the effects of metformin on astrocytes from hypothalamus, a crucial brain region related to inflammatory processes. Astrocyte cultures were derived from interferon α/β receptor knockout (IFNα/βR−/−) and wild-type (WT) mice. Metformin did not change the expression of glial fibrillary acidic protein but caused an anti-inflammatory effect by decreasing pro-inflammatory cytokines (tumor necrosis factor-α and interleukin-1β), as well as increasing gene expression of anti-inflammatory proteins interleukin-10 and Nrf2 (nuclear factor erythroid derived 2 like 2). However, nuclear factor κB p65 and cyclooxygenase 2 were downregulated in WT astrocytes and upregulated in IFNα/βR−/− astrocytes. AMP-activated protein kinase (AMPK), a molecular target of metformin, was upregulated only in WT astrocytes, while sirtuin 1 increased in both mice models. The expression of inducible nitric oxide synthase was decreased in WT astrocytes and heme oxygenase 1 was increased in IFNα/βR−/− astrocytes. Although loss of IFNα/βR-mediated signaling affects some effects of metformin, our results support beneficial roles of this drug in hypothalamic astrocytes. Moreover, paradoxical response of metformin may involve AMPK. Thus, metformin can mediate glioprotection due its effects on age-related disorders in non-diabetic and diabetic encephalopathy individuals.

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