短期高糖通过渗透压力激活Piezo1影响BV2细胞的极化OACHSSCD
Short-term high glucose mediates BV2 microglial polarization via Piezo1 activation by osmotic pressure
目的 探究短期高糖刺激通过渗透压力变化对小鼠小胶质细胞(BV2)极化的影响及其相关机制.方法 通过葡萄糖(Glu)和甘露醇(Mnt)分别建立细胞的高糖和高渗透压细胞模型,通过Western blotting探究高糖刺激导致的短期细胞外渗透压力变化对BV2的Piezo1蛋白表达的影响,通过qRT-PCR、ELISA和Western blotting检测BV2细胞的炎症因子和极化相关蛋白的表达情况,流式细胞术检测细胞膜表面蛋白表达情况、Ca2+内流变化,通过超氧阴离子检测试剂盒检测细胞的活性氧(ROS)水平,并通过药物激活或抑制Piezo1蛋白功能进一步探究NF-κB P65、HO-1等蛋白的表达情况.结果 短期Glu及等渗Mnt刺激均能显著上调BV2小胶质细胞中机械敏感离子通道Piezo1的蛋白表达(P<0.05),并引发明显的Ca2+内流.通过DHE检测发现,Glu和Mnt处理可显著升高细胞内ROS水平(P<0.01);此效应可被Piezo1特异性激动剂Yoda1模拟(P<0.01),而被抑制剂GsMTx-4显著逆转(P<0.01).进一步研究发现,Glu和Mnt处理还促进了BV2细胞向促炎表型转化,表现为膜表面蛋白CD86及炎症因子TNF-α、IL-1β的表达上调.Western blotting分析显示,Glu和Mnt处理能上调机械信号通路相关蛋白(YAP/TAZ、ITGB1)及炎症通路关键蛋白NF-κB的表达,同时下调抗氧化蛋白HO-1的表达(P<0.05).药理学激活Piezo1可重现上述蛋白表达变化,而抑制Piezo1功能则产生相反效应.结论 短期高糖刺激可通过其引发的渗透压变化,激活BV2小胶质细胞的Piezo1通道,进而介导Ca2+内流,诱导细胞发生氧化-抗氧化失衡及促炎表型转化.
Objective To investigate the effect of short-term high glucose stimulation on the polarization of murine microglial cells(BV2)via osmotic pressure changes and its underlying mechanism.Methods High glucose and hyperosmosis cell models were established using glucose(Glu)and mannitol(Mnt),respectively.The effect of short-term extracellular osmotic pressure changes induced by high glucose stimulation on Piezo1 protein expression in BV2 cells was examined by Western blotting.The expression of inflammatory factors and polarization-related proteins in BV2 cells was detected using qRT-PCR,ELISA,and Western blotting.Flow cytometry was used to detect cell surface protein expression and changes in Ca2+influx.Intracellular reactive oxygen species(ROS)levels were measured using a superoxide anion detection kit.The expression of proteins such as NF-κB P65 and HO-1 was further investigated by pharmacologically activating or inhibiting Piezo1 protein function.Results Short-term Glu and iso-osmotic Mnt stimulation significantly upregulated the protein expression of the mechanosensitive ion channel Piezo1 in BV2 microglia(P<0.05),and induced notable Ca2+influx.DHE detection showed that both Glu and Mnt treatments significantly increased intracellular ROS levels(P<0.01).This effect was mimicked by the Piezo1-specific agonist Yoda1(P<0.01)and significantly reversed by the inhibitor GsMTx-4(P<0.01).Further studies revealed that Glu and Mnt treatments promoted a shift in BV2 cells toward a pro-inflammatory phenotype,characterized by upregulated expression of the surface protein CD86 and the inflammatory factors TNF-α and IL-1β.Western blotting analysis indicated that Glu and Mnt treatments upregulated the expression of mechanotransduction-related proteins(YAP/TAZ,ITGB1)and the key inflammatory pathway protein NF-κB,while downregulating the expression of the antioxidant protein HO-1(P<0.05).Pharmacological activation of Piezo1 reproduced these protein expression changes,whereas inhibition of Piezo1 produced the opposite effects.Conclusion Short-term high glucose stimulation can activate the Piezo1 channel in BV2 microglial cells via induced osmotic pressure changes,which subsequently mediates Ca2+influx and induces an imbalance between oxidation and antioxidation,leading to a pro-inflammatory phenotypic transformation.
陈宇豪;沈金澳;陈城明;谢婷珂;刘思达;陈奕玄;汪小兰;樊超;韩静
空军军医大学唐都医院眼科,陕西西安 710038空军军医大学唐都医院眼科,陕西西安 710038空军军医大学唐都医院眼科,陕西西安 710038||解放军联勤保障部队第九○○医院眼科,福建 福州 350025空军军医大学唐都医院眼科,陕西西安 710038空军军医大学唐都医院眼科,陕西西安 710038空军军医大学唐都医院眼科,陕西西安 710038空军军医大学唐都医院眼科,陕西西安 710038空军军医大学唐都医院眼科,陕西西安 710038空军军医大学唐都医院眼科,陕西西安 710038
医药卫生
糖尿病神经病变小胶质细胞炎症极化Piezo1高糖氧化应激钙离子
diabetic neuropathymicrogliainflammationpolarizationPiezo1high glucoseoxidative stresscalcium ion
《空军军医大学学报》 2026 (3)
399-407,9
国家自然科学基金面上项目(82471089)陕西省卫生健康科研创新能力提升计划项目(2025TD-19)西安市科技计划项目(2024JH-YLYB-0324)
评论