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跨膜电位在膜质子渗漏中的作用。

Role of the transmembrane potential in the membrane proton leak.

机构信息

Department of Biomedical Sciences, University of Veterinary Medicine, Vienna, Austria.

出版信息

Biophys J. 2010 Apr 21;98(8):1503-11. doi: 10.1016/j.bpj.2009.12.4301.

DOI:10.1016/j.bpj.2009.12.4301
PMID:20409469
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2856137/
Abstract

The molecular mechanism responsible for the regulation of the mitochondrial membrane proton conductance (G) is not clearly understood. This study investigates the role of the transmembrane potential (DeltaPsim) using planar membranes, reconstituted with purified uncoupling proteins (UCP1 and UCP2) and/or unsaturated FA. We show that high DeltaPsim (similar to DeltaPsim in mitochondrial State IV) significantly activates the protonophoric function of UCPs in the presence of FA. The proton conductance increases nonlinearly with DeltaPsim. The application of DeltaPsim up to 220 mV leads to the overriding of the protein inhibition at a constant ATP concentration. Both, the exposure of FA-containing bilayers to high DeltaPsim and the increase of FA membrane concentration bring about the significant exponential Gm increase, implying the contribution of FA in proton leak. Quantitative analysis of the energy barrier for the transport of FA anions in the presence and absence of protein suggests that FA- remain exposed to membrane lipids while crossing the UCP-containing membrane. We believe this study shows that UCPs and FA decrease DeltaPsim more effectively if it is sufficiently high. Thus, the tight regulation of proton conductance and/or FA concentration by DeltaPsim may be key in mitochondrial respiration and metabolism.

摘要

线粒体膜质子电导(G)调节的分子机制尚不清楚。本研究使用平面膜,用纯化的解偶联蛋白(UCP1 和 UCP2)和/或不饱和 FA 重建,研究了跨膜电位(DeltaPsim)的作用。我们表明,在 FA 存在的情况下,高 DeltaPsim(类似于线粒体状态 IV 中的 DeltaPsim)可显著激活 UCP 的质子传递功能。质子电导随 DeltaPsim 非线性增加。高达 220 mV 的 DeltaPsim 的应用导致在恒定的 ATP 浓度下对蛋白质抑制的克服。FA 含量双层暴露于高 DeltaPsim 和 FA 膜浓度的增加都导致明显的指数 Gm 增加,这意味着 FA 在质子泄漏中的贡献。在存在和不存在蛋白质的情况下,FA 阴离子运输的能量障碍的定量分析表明,FA-在穿过含 UCP 的膜时仍然暴露于膜脂质中。我们相信这项研究表明,如果 DeltaPsim 足够高,UCPs 和 FA 可以更有效地降低 DeltaPsim。因此,质子电导和/或 FA 浓度受 DeltaPsim 的紧密调节可能是线粒体呼吸和代谢的关键。

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