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Exogenous zinc protects cardiac cells from reperfusion injury by targeting mitochondrial permeability transition pore through inactivation of glycogen synthase kinase-3β

机译:外源锌通过使糖原合酶激酶3β失活靶向线粒体通透性过渡孔,从而保护心肌细胞免受再灌注损伤

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The purpose of this study was to determine whether exogenous zinc prevents cardiac reperfusion injury by targeting the mitochondrial permeability transition pore (mPTP) via glycogen synthase kinase-3β (GSK-3β). The treatment of cardiac H9c2 cells with ZnCl2 (10 μM) in the presence of zinc ionophore pyrithione for 20 min significantly enhanced GSK-3β phosphorylation at Ser9, indicating that exogenous zinc can inactivate GSK-3β in H9c2 cells. The effect of zinc on GSK-3β activity was blocked by the phosphatidylinositol 3-kinase (PI3K) inhibitor LY-294002 but not by the mammalian target of rapamycin (mTOR) inhibitor rapamycin or the PKC inhibitor chelerythrine, implying that PI3K but not mTOR or PKC accounts for the action of zinc. In support of this interpretation, zinc induced a significant increase in Akt but not mTOR phosphorylation. Further experiments found that zinc also increased mitochondrial GSK-3β phosphorylation. This may indicate an involvement of the mitochondria in the action of zinc. The effect of zinc on mitochondrial GSK-3β phosphorylation was not altered by the mitochondrial ATP-sensitive K+ channel blocker 5-hydroxydecanoic acid. Zinc applied at reperfusion reduced cell death in cells subjected to simulated ischemia/reperfusion, indicating that zinc can prevent reperfusion injury. However, zinc was not able to exert protection in cells transfected with the constitutively active GSK-3β (GSK-3β-S9A-HA) mutant, suggesting that zinc prevents reperfusion injury by inactivating GSK-3β. Cells transfected with the catalytically inactive GSK-3β (GSK-3β-KM-HA) also revealed a significant decrease in cell death, strongly supporting the essential role of GSK-3β inactivation in cardioprotection. Moreover, zinc prevented oxidant-induced mPTP opening through the inhibition of GSK-3β. Taken together, these data suggest that zinc prevents reperfusion injury by modulating the mPTP opening through the inactivation of GSK-3β. The PI3K/Akt signaling pathway is responsible for the inactivation of GSK-3β by zinc.
机译:这项研究的目的是确定外源锌是否通过糖原合酶激酶3β(GSK-3β)靶向线粒体通透性过渡孔(mPTP)来预防心脏再灌注损伤。在锌离子载体巯氧吡啶存在下用ZnCl2(10μM)处理心脏H9c2细胞20分钟,可显着增强Ser9处GSK-3β的磷酸化,表明外源锌可使H9c2细胞中的GSK-3β失活。锌对GSK-3β活性的影响被磷脂酰肌醇3激酶(PI3K)抑制剂LY-294002阻断,但未被雷帕霉素(mTOR)抑制剂雷帕霉素或PKC抑制剂白屈菜红碱的哺乳动物靶点阻断,这表明PI3K但不对mTOR或PKC负责锌的作用。为了支持这种解释,锌诱导了Akt的显着增加,但并未引起mTOR磷酸化。进一步的实验发现锌还增加了线粒体GSK-3β的磷酸化。这可能表明线粒体参与锌的作用。锌对线粒体GSK-3β磷酸化的影响不会被线粒体ATP敏感的K +通道阻滞剂5-羟基癸酸所改变。在再灌注时施用锌减少了模拟缺血/再灌注细胞的细胞死亡,这表明锌可以预防再灌注损伤。然而,锌不能在组成性活性GSK-3β(GSK-3β-S9A-HA)突变体转染的细胞中发挥保护作用,这表明锌可以通过失活GSK-3β来防止再灌注损伤。转染了无催化活性的GSK-3β(GSK-3β-KM-HA)的细胞也显示出细胞死亡的显着减少,强烈支持了GSK-3β失活在心脏保护中的重要作用。此外,锌通过抑制GSK-3β阻止了氧化剂诱导的mPTP的开放。综上所述,这些数据表明锌通过失活GSK-3β来调节mPTP的开放,从而防止了再灌注损伤。 PI3K / Akt信号通路负责锌使GSK-3β失活。

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