ATP酶抑制因子1对细胞有丝分裂自噬的神经保护协调作用。

Neuroprotective coordination of cell mitophagy by the ATPase Inhibitory Factor 1.

作者信息

Matic Ivana, Cocco Stefania, Ferraina Caterina, Martin-Jimenez Rebeca, Florenzano Fulvio, Crosby James, Lupi Ramona, Amadoro Giusy, Russell Claire, Pignataro Giuseppe, Annunziato Lucio, Abramov Andrey Y, Campanella Michelangelo

机构信息

Department of Biology, University of Rome "TorVergata", 00133 Rome, Italy.

EBRI-European Brain Research Institute, 00143 Rome, Italy.

出版信息

Pharmacol Res. 2016 Jan;103:56-68. doi: 10.1016/j.phrs.2015.10.010. Epub 2015 Oct 17.

DOI:10.1016/j.phrs.2015.10.010

PMID:26484591

Abstract

The mitochondrial ATPase Inhibitory Factor 1 (hereafter referred to as IF1) blocks the reversal of the F1Fo-ATPsynthase to prevent detrimental consumption of cellular ATP and associated demise. Herein, we infer further its molecular physiology by assessing its protective function in neurons during conditions of challenged homeostatic respiration. By adopting in vitro and in vivo protocols of hypoxia/ischemia and re-oxygenation, we show that a shift in the IF1:F1Fo-ATPsynthase expression ratio occurs in neurons. This increased IF1 level is essential to induce accumulation of the PTEN-induced putative kinase 1 (PINK-1) and recruitment of the mitophagic ubiquitin ligase PARK-2 to promote autophagic "control" of the mitochondrial population. In IF1 overexpressing neurons ATP depletion is reduced during hypoxia/ischemia and the mitochondrial membrane potential (ΔYm) resilient to re-oxygenation as well as resistant to electrogenic, Ca(2+) dependent depolarization. These data suggest that in mammalian neurons mitochondria adapt to respiratory stress by upregulating IF1, which exerts a protective role by coordinating pro-survival cell mitophagy and bioenergetics resilience.

摘要

线粒体ATP酶抑制因子1（以下简称IF1）可阻止F1Fo - ATP合酶的逆转，以防止细胞ATP的有害消耗及相关细胞死亡。在此，我们通过评估其在稳态呼吸受到挑战的情况下对神经元的保护功能，进一步推断其分子生理学机制。通过采用体外和体内的缺氧/缺血及复氧实验方案，我们发现神经元中IF1:F1Fo - ATP合酶的表达比例发生了变化。IF1水平的升高对于诱导PTEN诱导的假定激酶1（PINK - 1）的积累以及募集线粒体自噬泛素连接酶PARK - 2以促进对线粒体群体的自噬“控制”至关重要。在过表达IF1的神经元中，缺氧/缺血期间ATP消耗减少，线粒体膜电位（ΔYm）对复氧具有弹性，并且对电致性、Ca(2+)依赖性去极化具有抗性。这些数据表明，在哺乳动物神经元中，线粒体通过上调IF1来适应呼吸应激，IF1通过协调促生存细胞线粒体自噬和生物能量弹性发挥保护作用。

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ATP酶抑制因子1对细胞有丝分裂自噬的神经保护协调作用。

Neuroprotective coordination of cell mitophagy by the ATPase Inhibitory Factor 1.

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