基于RNA-seq技术探索低氧复合炎症对小胶质细胞代谢-免疫调控网络的协同作用机制研究OA
Microglial metabolic-immune crosstalk regulated by hypoxia combined with inflammation based on RNA-seq
目的 利用RNA-seq技术深度探讨低氧复合炎症对小胶质细胞能量代谢的调控模式及其核心协同机制,以期为高原脑水肿的精准防治提供关键理论支撑与新路径.方法 按照不同处理条件将BV2细胞分为4组:空白对照组(Con组)、低氧诱导组(Hy组)、LPS诱导组(LPS组)及低氧复合LPS组(Hy-LPS组).通过CCK-8法检测细胞活力,利用Griess法与ELISA法检测NO及炎症因子(IL-1β、IL-6及TNF-α)水平,并利用RNA-seq进行转录组测序,结合GO、KEGG和GSEA进行功能注释,富集差异基因及相关通路分析.结果 低氧复合炎症显著抑制细胞活力并促进NO及炎症因子释放.转录组分析显示,Hy-LPS组差异表达基因数量多达2060个(其中912个上调、1148个下调),显著富集于低氧应答、炎症免疫、细胞周期及代谢重编程等通路,表明低氧与炎症在转录层面具有协同效应.结论 初步阐明低氧复合炎症通过多通路协同调控小胶质细胞能量代谢与炎症应答的分子网络,为高原脑水肿的机制研究与防治提供了潜在靶点.
Objective To investigate the regulatory effects of hypoxia combined with inflammation on microglial energy metabolism and explore the underlying synergistic mechanisms in order to provide novel targets for the prevention and treatment of high-altitude cerebral edema.Methods BV2 microglial cells were categorized into four experimental groups:control(Con),hypoxia(Hy,1%O2),lipopolysaccharide(LPS,0.1 μg/mL),and hypoxia combined with LPS(Hy-LPS).Cell viability was evaluated using the CCK-8 assay.The levels of nitric oxide(NO)and pro-inflammatory cytokines(IL-1β,IL-6,TNF-α)in the supernatant were determined via the Griess method and ELISA,respectively.Transcriptomic profiling was conducted via RNA sequencing(RNA-seq),followed by bioinformatic analyses including identification of differentially expressed genes(DEGs),Gene Ontology(GO),Kyoto Encyclopedia of Genes and Genomes(KEGG)pathway enrichment,and Gene Set Enrichment Analysis(GSEA).Results Hy-LPS co-treatment significantly suppressed cell viability and synergistically promoted the release of NO and inflammatory cytokines compared to individual stimuli.Transcriptomic analysis revealed 2060 differentially expressed genes(DEGs)in the Hy-LPS group,including 912 up-regulated and 1148 down-regulated genes.These DEGs were prominently enriched in pathways associated with hypoxia response,inflammatory immunity,cell cycle regulation,and metabolic reprogramming,indicating a robust synergistic effect between hypoxia and inflammation at the transcriptional level.Conclusion This study sheds light on the molecular network through which hypoxia complicated with inflammation synergistically regulates microglial energy metabolism and inflammatory responses across multiple pathways,thereby providing potential targets for mechanistic research and the prevention of high-altitude cerebral edema.
包素雅;张明喆;刘文惠;郭馨蔚;邢微微;高波;张安
重庆医科大学附属第二医院(第二临床学院),重庆 400016||军事科学院军事医学研究院,北京 100850军事科学院军事医学研究院,北京 100850军事科学院军事医学研究院,北京 100850军事科学院军事医学研究院,北京 100850||解放军陆军第八十二集团军医院,河北 保定 071000军事科学院军事医学研究院,北京 100850军事科学院军事医学研究院,北京 100850重庆医科大学附属第二医院(第二临床学院),重庆 400016
医药卫生
低氧神经炎症高原脑水肿小胶质细胞转录组学差异表达基因代谢重编程
hypoxianeuroinflammationhigh altitude cerebral edemamicrogliatranscriptomicsdifferentially expressed genesmetabolic reprogramming
《军事医学》 2026 (5)
342-350,9
重庆市科技局基金项目(CSTB2024TIAD-GPX0030)
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