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线粒体中蛋白激酶 C∊的选择性激活具有神经保护作用,可减少小鼠局灶性缺血性脑损伤。

Selective activation of protein kinase C∊ in mitochondria is neuroprotective in vitro and reduces focal ischemic brain injury in mice.

机构信息

Department of Anesthesia, Stanford University School of Medicine, Stanford, California 94305, USA.

出版信息

J Neurosci Res. 2013 Jun;91(6):799-807. doi: 10.1002/jnr.23186. Epub 2013 Feb 21.

Abstract

Activation of protein kinase C∊ (PKC∊) confers protection against neuronal ischemia/reperfusion. Activation of PKC∊ leads to its translocation to multiple intracellular sites, so a mitochondria-selective PKC∊ activator was used to test the importance of mitochondrial activation to the neuroprotective effect of PKC∊. PKC∊ can regulate key cytoprotective mitochondrial functions, including electron transport chain activity, reactive oxygen species (ROS) generation, mitochondrial permeability transition, and detoxification of reactive aldehydes. We tested the ability of mitochondria-selective activation of PKC∊ to protect primary brain cell cultures or mice subjected to ischemic stroke. Pretreatment with either general PKC∊ activator peptide, TAT-Ψ∊RACK, or mitochondrial-selective PKC∊ activator, TAT-Ψ∊HSP90, reduced cell death induced by simulated ischemia/reperfusion in neurons, astrocytes, and mixed neuronal cultures. The protective effects of both TAT-Ψ∊RACK and TAT-Ψ∊HSP90 were blocked by the PKC∊ antagonist ∊V1-2 , indicating that protection requires PKC∊ interaction with its anchoring protein, TAT-∊RACK. Further supporting a mitochondrial mechanism for PKC∊, neuroprotection by TAT-Ψ∊HSP90 was associated with a marked delay in mitochondrial membrane depolarization and significantly attenuated ROS generation during ischemia. Importantly, TAT-Ψ∊HSP90 reduced infarct size and reduced neurological deficit in C57/BL6 mice subjected to middle cerebral artery occlusion and 24 hr of reperfusion. Thus selective activation of mitochondrial PKC∊ preserves mitochondrial function in vitro and improves outcome in vivo, suggesting potential therapeutic value clinically when brain ischemia is anticipated, including neurosurgery and cardiac surgery.

摘要

蛋白激酶 C∊(PKC∊)的激活可提供对神经元缺血/再灌注的保护。PKC∊的激活导致其向多个细胞内位置转移,因此使用线粒体选择性 PKC∊激活剂来测试线粒体激活对 PKC∊的神经保护作用的重要性。PKC∊可以调节关键的细胞保护线粒体功能,包括电子传递链活性、活性氧(ROS)的产生、线粒体通透性转换和活性醛的解毒。我们测试了线粒体选择性激活 PKC∊保护原代脑细胞培养物或经历缺血性中风的小鼠的能力。用一般的 PKC∊激活肽 TAT-Ψ∊RACK 或线粒体选择性 PKC∊激活剂 TAT-Ψ∊HSP90 预处理可减少神经元、星形胶质细胞和混合神经元培养物中模拟缺血/再灌注引起的细胞死亡。TAT-Ψ∊RACK 和 TAT-Ψ∊HSP90 的保护作用均被 PKC∊拮抗剂∊V1-2 阻断,表明保护需要 PKC∊与锚定蛋白 TAT-∊RACK 相互作用。进一步支持 PKC∊的线粒体机制,TAT-Ψ∊HSP90 的神经保护作用与线粒体膜去极化的明显延迟以及缺血期间 ROS 生成的显著减弱有关。重要的是,TAT-Ψ∊HSP90 减少了 C57/BL6 小鼠大脑中动脉闭塞和 24 小时再灌注后梗死面积和神经功能缺损的程度。因此,选择性激活线粒体 PKC∊可在体外保存线粒体功能,并改善体内结果,当预计发生脑缺血时,包括神经外科和心脏手术,这表明其在临床上具有潜在的治疗价值。

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