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膜曲率诱导和管状化是突触核蛋白和载脂蛋白的共同特征。

Membrane curvature induction and tubulation are common features of synucleins and apolipoproteins.

机构信息

Zilkha Neurogenetic Institute, University of Southern California, Los Angeles, California 90033, USA.

出版信息

J Biol Chem. 2010 Oct 15;285(42):32486-93. doi: 10.1074/jbc.M110.139576. Epub 2010 Aug 6.

Abstract

Synucleins and apolipoproteins have been implicated in a number of membrane and lipid trafficking events. Lipid interaction for both types of proteins is mediated by 11 amino acid repeats that form amphipathic helices. This similarity suggests that synucleins and apolipoproteins might have comparable effects on lipid membranes, but this has not been shown directly. Here, we find that α-synuclein, β-synuclein, and apolipoprotein A-1 have the conserved functional ability to induce membrane curvature and to convert large vesicles into highly curved membrane tubules and vesicles. The resulting structures are morphologically similar to those generated by amphiphysin, a curvature-inducing protein involved in endocytosis. Unlike amphiphysin, however, synucleins and apolipoproteins do not require any scaffolding domains and curvature induction is mediated by the membrane insertion and wedging of amphipathic helices alone. Moreover, we frequently observed that α-synuclein caused membrane structures that had the appearance of nascent budding vesicles. The ability to function as a minimal machinery for vesicle budding agrees well with recent findings that α-synuclein plays a role in vesicle trafficking and enhances endocytosis. Induction of membrane curvature must be under strict regulation in vivo; however, as we find it can also cause disruption of membrane integrity. Because the degree of membrane curvature induction depends on the concerted action of multiple proteins, controlling the local protein density of tubulating proteins may be important. How cellular safeguarding mechanisms prevent such potentially toxic events and whether they go awry in disease remains to be determined.

摘要

突触核蛋白和载脂蛋白参与了许多膜和脂质转运事件。这两种蛋白质的脂质相互作用是由形成两亲性螺旋的 11 个氨基酸重复介导的。这种相似性表明,突触核蛋白和载脂蛋白可能对脂质膜有类似的影响,但这尚未直接证明。在这里,我们发现 α-突触核蛋白、β-突触核蛋白和载脂蛋白 A-1 具有保守的功能能力,可以诱导膜曲率,并将大囊泡转化为高度弯曲的膜管和囊泡。由此产生的结构在形态上与参与胞吞作用的曲率诱导蛋白 amphiphysin 产生的结构相似。然而,与 amphiphysin 不同,突触核蛋白和载脂蛋白不需要任何支架结构,并且曲率诱导仅通过亲脂性螺旋的膜插入和楔入来介导。此外,我们经常观察到 α-突触核蛋白导致膜结构具有新生出芽囊泡的外观。作为囊泡出芽的最小机制的功能能力与最近的发现非常吻合,即 α-突触核蛋白在囊泡转运中起作用并增强胞吞作用。体内膜曲率的诱导必须受到严格调节;然而,正如我们发现的那样,它也可能导致膜完整性的破坏。由于膜曲率诱导的程度取决于多种蛋白质的协同作用,控制管状蛋白质的局部蛋白质密度可能很重要。细胞保护机制如何防止这种潜在的毒性事件发生,以及它们在疾病中是否会出错,还有待确定。

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