山羊心脏抑制蛋白 IF(1) 对 F(0)F(1)ATP 合成酶调控的体内外研究。

Francesca Di Pancrazio, Irene Mavelli, Miriam Isola, Gianni Losano, Pasquale Pagliaro, David A Harris, Giovanna Lippe
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引用次数: 46

摘要

目前已开发出一种方法,可在单个山羊心脏活检样本中测量 F(0)F(1)ATP 合酶能力水平以及与该酶结合的 IF(1) 数量。ATP 合成酶能力根据线粒体 ATP 最大水解率确定,IF(1) 含量通过去垢剂提取后的蓝色原生凝胶电泳、二维 SDS-PAGE 和抗 IF(1) 抗体免疫印迹确定。对麻醉开胸山羊进行缺血预处理和/或冠状动脉血流量(CBF)突然增加(反应性充血)。在缺血预处理前诱导高充血时,可观察到合成酶能力急剧上升,随后又急剧下降。相反,在缺血预处理后应用高充血不会影响合成酶的能力。在体外用缺氧(ATP 合成酶下调)或高盐或高pH 缓冲液(上调)处理心脏活检样本也会产生类似的效果。我们的研究表明,在体外和体内,酶活性与 IF(1) 含量之间同样存在密切的反相关关系,这表明在所有测试条件下,IF(1) 是酶活性的唯一重要调节因子。此外,无论是在体内还是体外,预测 1.3-1.4 摩尔 IF(1) 可使 1 摩尔合成酶完全失活,从而排除了 F(0) 部分存在大量 IF(1) 非抑制性结合位点的可能性。
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In vitro and in vivo studies of F(0)F(1)ATP synthase regulation by inhibitor protein IF(1) in goat heart.

A method has been developed to allow the level of F(0)F(1)ATP synthase capacity and the quantity of IF(1) bound to this enzyme be measured in single biopsy samples of goat heart. ATP synthase capacity was determined from the maximal mitochondrial ATP hydrolysis rate and IF(1) content was determined by detergent extraction followed by blue native gel electrophoresis, two-dimensional SDS-PAGE and immunoblotting with anti-IF(1) antibodies. Anaesthetized open-chest goats were subjected to ischemic preconditioning and/or sudden increases of coronary blood flow (CBF) (reactive hyperemia). When hyperemia was induced before ischemic preconditioning, a steep increase in synthase capacity, followed by a deep decrease, was observed. In contrast, hyperemia did not affect synthase capacity when applied after ischemic preconditioning. Similar effects could be produced in vitro by treatment of heart biopsy samples with anoxia (down-regulation of the ATP synthase) or high-salt or high-pH buffers (up-regulation). We show that both in vitro and in vivo the same close inverse correlation exists between enzyme activity and IF(1) content, demonstrating that under all conditions tested the only significant modulator of the enzyme activity was IF(1). In addition, both in vivo and in vitro, 1.3-1.4 mol of IF(1) was predicted to fully inactivate 1 mol of synthase, thus excluding the existence of significant numbers of non-inhibitory binding sites for IF(1) in the F(0) sector.

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