Detergent-resistant membrane subfractions containing proteins of plasma membrane, mitochondrial, and internal membrane origins

Ronald L. Mellgren
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引用次数: 18

Abstract

HEK293 cell detergent-resistant membranes (DRMs) isolated by the standard homogenization protocol employing a Teflon pestle homogenizer yielded a prominent opaque band at approximately 16% sucrose upon density gradient ultracentrifugation. In contrast, cell disruption using a ground glass tissue homogenizer generated three distinct DRM populations migrating at approximately 10%, 14%, and 20% sucrose, named DRM subfractions A, B, and C, respectively. Separation of the DRM subfractions by mechanical disruption suggested that they are physically associated within the cellular environment, but can be dissociated by shear forces generated during vigorous homogenization. All three DRM subfractions possessed cholesterol and ganglioside GM1, but differed in protein composition. Subfraction A was enriched in flotillin-1 and contained little caveolin-1. In contrast, subfractions B and C were enriched in caveolin-1. Subfraction C contained several mitochondrial membrane proteins, including mitofilin and porins. Only subfraction B appeared to contain significant amounts of plasma membrane-associated proteins, as revealed by cell surface labeling studies. A similar distribution of DRM subfractions, as assessed by separation of flotillin-1 and caveolin-1 immunoreactivities, was observed in CHO cells, in 3T3-L1 adipocytes, and in HEK293 cells lysed in detergent-free carbonate. Teflon pestle homogenization of HEK293 cells in the presence of the actin-disrupting agent latrunculin B generated DRM subfractions A–C. The microtubule-disrupting agent vinblastine did not facilitate DRM subfraction separation, and DRMs prepared from fibroblasts of vimentin-null mice were present as a single major band on sucrose gradients, unless pre-treated with latrunculin B. These results suggest that the DRM subfractions are interconnected by the actin cytoskeleton, and not by microtubes or vimentin intermediate filaments. The subfractions described may prove useful in studying discrete protein populations associated with detergent-resistant membranes, and their potential interactions in cell signaling.

含有质膜、线粒体和内部膜起源蛋白质的耐洗涤剂膜亚组分
HEK293细胞抗洗涤剂膜(DRMs)采用标准均质方案,采用聚四氟乙烯柱均质机分离,在密度梯度超离心时,在大约16%的蔗糖浓度下产生明显的不透明带。相比之下,使用磨砂玻璃组织均质机破坏细胞产生三种不同的DRM种群,在大约10%,14%和20%的蔗糖浓度下迁移,分别命名为DRM亚组分a, B和C。通过机械破坏分离DRM亚组分表明,它们在细胞环境中是物理相关的,但可以通过剧烈均质过程中产生的剪切力分离。所有三个DRM亚组分都含有胆固醇和神经节苷脂GM1,但蛋白质组成不同。亚组分A中flotilin -1含量丰富,caveolin-1含量较低。相比之下,亚组B和C则富含小洞蛋白-1。亚段C含有多种线粒体膜蛋白,包括有丝分裂蛋白和孔蛋白。正如细胞表面标记研究显示的那样,只有亚段B似乎含有大量的质膜相关蛋白。通过分离flotilin -1和caveolin-1的免疫反应性,在CHO细胞、3T3-L1脂肪细胞和在无洗涤剂碳酸盐中裂解的HEK293细胞中观察到类似的DRM亚组分分布。在肌动蛋白干扰剂latrunculin B存在的情况下,HEK293细胞的Teflon柱均质产生DRM亚组分A-C。微管破坏剂vinblastine不能促进DRM亚片段的分离,并且从vimentin-null小鼠的成纤维细胞制备的DRM在蔗糖梯度上作为单个主要条带存在,除非用latrunculin b预处理。这些结果表明DRM亚片段通过肌动蛋白细胞骨架连接,而不是通过微管或vimentin中间丝连接。所描述的亚组分可能有助于研究与耐洗涤剂膜相关的离散蛋白质群,以及它们在细胞信号传导中的潜在相互作用。
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