蛋白激酶Cβ/ P66Shc氧化应激信号通路在介导高氧诱导肺泡上皮细胞活性氧生成中的作用
[Roles of PKCβ/P66Shc oxidative stress signal pathway in mediating hyperoxia-induced ROS production in alveolar epithelial cells].
作者信息
Che Zhong-Li, Dong Wen-Bin, Li Qing-Ping, Lei Xiao-Ping, Kang Lan, Guo Lin, Zhai Xue-Song, Chen Feng
机构信息
Department of Neonatology, Affiliated Hospital of Luzhou Medical College, Luzhou, Sichuan 646000, China.
出版信息
Zhongguo Dang Dai Er Ke Za Zhi. 2015 Mar;17(3):275-80.
OBJECTIVE
To explore the roles of PKCβ/P66Shc oxidative stress signal pathway in mediating hyperoxia-induced reactive oxgen species (ROS) production in alveolar epithelial cells (A549) and the protective effects of PKCβ inhibitor on hyperoxia-induced injuries of alveolar epithelial cells.
METHODS
A549 cells were cultured in vitro and randomly divided into three groups: control, hyperoxia and PKCβ inhibitor LY333531 treatment. The hyperoxia group was exposed to a mixture of O2 (950 mL/L) and CO2 (50 mL/L) for 10 minutes and then cultured in a closed environment. The LY333531 group was treated with PKCβ inhibitor LY333531 of 10 µmol/L for 24 hours before hyperoxia induction. Cells were collected 24 hours after culture and the levels of PKCβ, Pin1, P66Shc and P66Shc-Ser36 were detected by Western blot. The intracellular translocation of P66Shc, the production of ROS and cellular mitochondria membrane potential were measured using the confocal microscopy.
RESULTS
Compared with the control group, the levels of PKCβ, Pin1, P66Shc and P-P66Shc-Ser36 in A549 cells 24 hours after culture increased significantly in the hyperoxia group. These changes in the hyperoxia group were accompanied with an increased translocation rate of P66Shc from cytoplasm into mitochondria, an increased production of mitochondrial ROS, and a reduced mitochondrial membrane potential. Compared with the hyperoxia group, the levels of Pin1, P66Shc and P66Shc-Ser36 in A549 cells, the translocation rate of P66Shc from cytoplasm into mitochondria and the production of mitochondrial ROS decreased significantly, while the mitochondrial membrane potential increased significantly in the LY333531 treatment group. However, there were significant differences in the above mentioned measurements between the LY333531 treatment and control groups.
CONCLUSIONS
Hyperoxia can increase the expression of PKCβ in alveolar epithelial cells and production of mitochondrial ROS and decrease mitochondrial membrane potential. PKCβ inhibitor LY333531 can partially disrupt these changes and thus alleviate the hyperoxia-induced alveolar epithelial cell injury.
目的
探讨蛋白激酶Cβ(PKCβ)/P66Shc氧化应激信号通路在介导高氧诱导肺泡上皮细胞(A549)活性氧(ROS)生成中的作用以及PKCβ抑制剂对高氧诱导的肺泡上皮细胞损伤的保护作用。
方法
体外培养A549细胞,随机分为三组:对照组、高氧组和PKCβ抑制剂LY333531处理组。高氧组暴露于氧气(950 mL/L)和二氧化碳(50 mL/L)的混合气体中10分钟,然后在密闭环境中培养。LY333531组在高氧诱导前用10 μmol/L的PKCβ抑制剂LY333531处理24小时。培养24小时后收集细胞,采用蛋白质免疫印迹法检测PKCβ、肽基脯氨酰顺反异构酶1(Pin1)、P66Shc和P66Shc丝氨酸36位点磷酸化(P66Shc-Ser36)的水平。利用共聚焦显微镜检测P66Shc的细胞内转位、ROS的生成及细胞线粒体膜电位。
结果
与对照组相比,培养24小时后高氧组A549细胞中PKCβ、Pin1、P66Shc和P-P66Shc-Ser36的水平显著升高。高氧组的这些变化伴随着P66Shc从细胞质向线粒体转位率的增加、线粒体ROS生成的增加以及线粒体膜电位的降低。与高氧组相比,LY333531处理组A549细胞中Pin1、P66Shc和P66Shc-Ser36的水平、P66Shc从细胞质向线粒体的转位率以及线粒体ROS的生成显著降低,而线粒体膜电位显著升高。然而,LY333531处理组与对照组在上述测量指标上存在显著差异。
结论
高氧可增加肺泡上皮细胞中PKCβ的表达,增加线粒体ROS的生成并降低线粒体膜电位。PKCβ抑制剂LY333531可部分阻断这些变化,从而减轻高氧诱导的肺泡上皮细胞损伤。
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