HMGA1 Regulates IRS2 to Promote Inflammatory Responses and Oxidative Stress Injury in MPP⁺-Induced cells.

IF 1.8 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Cell Biochemistry and Biophysics Pub Date : 2024-09-08 DOI:10.1007/s12013-024-01510-7

Dongxun Xu, Wenhui Fan, Bing Fu, Hongxia Nie

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Abstract

Parkinson's disease (PD) is a prevalent neurodegenerative disorder for which novel treatment approaches are continuously sought. This study investigates the role of high-mobility group A1 (HMGA1) in modulating inflammatory responses and oxidative stress injury in PD. We utilized the murine dopaminergic neuronal cell line MN9D, treating cells with 1-methyl-4-phenylpyridinium ion (MPP⁺) to mimic PD conditions. The expression levels of HMGA1 and insulin receptor substrate 2 (IRS2) were measured using quantitative polymerase chain reaction and Western blot assay. Cell damage was assessed with cell counting kit-8 and lactate dehydrogenase assays. Inflammatory response and oxidative stress were evaluated by quantifying interleukin (IL)-1β, IL-6, tumor necrosis factor-α, reactive oxygen species, superoxide dismutase, and malondialdehyde (MDA) levels using enzyme-linked immunosorbent assay and commercial kits. The binding interaction between HMGA1 and IRS2 was analyzed using chromatin immunoprecipitation (ChIP) and dual-luciferase reporter assays. Our findings revealed that MPP⁺ treatment increased the expression of HMGA1 and IRS2. Downregulation of HMGA1 enhanced cell viability, reduced inflammation, and mitigated oxidative stress in MPP⁺-induced cells. Further investigation demonstrated that HMGA1 bounded to the IRS2 promoter, enhancing IRS2 expression. Overexpression of IRS2 counteracted the protective effects of HMGA1 downregulation. In conclusion, HMGA1 exacerbates MPP⁺-induced cell damage by activating IRS2 transcription, which in turn heightens inflammation and oxidative stress. These findings suggest that targeting HMGA1 could be a potential therapeutic strategy for PD.

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HMGA1调节IRS2，促进MPP+诱导细胞的炎症反应和氧化应激损伤

帕金森病（PD）是一种常见的神经退行性疾病，人们一直在寻找新的治疗方法。本研究探讨了高迁移率基团 A1（HMGA1）在帕金森病中调节炎症反应和氧化应激损伤的作用。我们利用小鼠多巴胺能神经元细胞系MN9D，用1-甲基-4-苯基吡啶鎓离子（MPP+）处理细胞以模拟帕金森病的情况。采用定量聚合酶链反应和 Western 印迹法测定了 HMGA1 和胰岛素受体底物 2（IRS2）的表达水平。细胞损伤通过细胞计数试剂盒-8和乳酸脱氢酶检测进行评估。炎症反应和氧化应激通过使用酶联免疫吸附测定法和商业试剂盒对白细胞介素（IL）-1β、IL-6、肿瘤坏死因子-α、活性氧、超氧化物歧化酶和丙二醛（MDA）水平进行定量评估。使用染色质免疫沉淀（ChIP）和双荧光素酶报告实验分析了 HMGA1 和 IRS2 之间的结合相互作用。我们的研究结果表明，MPP+处理增加了HMGA1和IRS2的表达。在 MPP+ 诱导的细胞中，下调 HMGA1 可增强细胞活力、减少炎症反应并减轻氧化应激。进一步的研究表明，HMGA1 与 IRS2 启动子结合，增强了 IRS2 的表达。IRS2 的过度表达抵消了 HMGA1 下调的保护作用。总之，HMGA1 通过激活 IRS2 转录加剧了 MPP+ 诱导的细胞损伤，进而加剧了炎症和氧化应激。这些研究结果表明，靶向 HMGA1 可能是一种潜在的帕金森病治疗策略。

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来源期刊

Cell Biochemistry and Biophysics 生物-生化与分子生物学

CiteScore

4.40

自引率

0.00%

发文量

审稿时长

7.5 months

期刊介绍： Cell Biochemistry and Biophysics (CBB) aims to publish papers on the nature of the biochemical and biophysical mechanisms underlying the structure, control and function of cellular systems The reports should be within the framework of modern biochemistry and chemistry, biophysics and cell physiology, physics and engineering, molecular and structural biology. The relationship between molecular structure and function under investigation is emphasized. Examples of subject areas that CBB publishes are: · biochemical and biophysical aspects of cell structure and function; · interactions of cells and their molecular/macromolecular constituents; · innovative developments in genetic and biomolecular engineering; · computer-based analysis of tissues, cells, cell networks, organelles, and molecular/macromolecular assemblies; · photometric, spectroscopic, microscopic, mechanical, and electrical methodologies/techniques in analytical cytology, cytometry and innovative instrument design For articles that focus on computational aspects, authors should be clear about which docking and molecular dynamics algorithms or software packages are being used as well as details on the system parameterization, simulations conditions etc. In addition, docking calculations (virtual screening, QSAR, etc.) should be validated either by experimental studies or one or more reliable theoretical cross-validation methods.

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