Paulson H L, Ross A F, Green W N, Claudio T
Department of Cell Biology, Yale University School of Medicine, New Haven, Connecticut 06510.
J Cell Biol. 1991 Jun;113(6):1371-84. doi: 10.1083/jcb.113.6.1371.
Mammalian cell lines expressing nicotinic acetylcholine receptor (AChR) subunit cDNAs from Torpedo californica were used to study early events in AChR assembly. To test the hypothesis that individual subunits form homooligomeric intermediates before assembling into alpha 2 beta gamma delta pentamers, we analyzed the sedimentation on sucrose density gradients of each subunit expressed separately in cell lines. We have shown previously that the acute temperature sensitivity of Torpedo AChR subunit assembly is due, in part, to misfolding of the polypeptide chains (Paulson, H.L., and T. Claudio. 1990. J. Cell Biol. 110:1705-1717). We use this phenomenon to further analyze putative assembly-competent intermediates. In nonionic detergent at an assembly-permissive temperature, the majority of alpha, beta, gamma, and delta subunits sediment neither as 3-4S monomers nor as 9S complexes, but rather as 6S species whether synthesized in fibroblasts, myoblasts, or differentiated myosyncytia. Several results indicate that the 6S species are complexes comprised predominantly of incorrectly folded subunit polypeptides. The complexes represent homoaggregates which form rapidly within the cell, are stable to mild SDS treatment and, in the case of alpha, contain some disulfide-linked subunits. The coprecipitation of alpha subunit with BiP or GRP78, a resident protein of the ER, further indicates that at least some of these internally sequestered subunits also associated with an endogenous protein implicated in protein folding. The majority of subunits expressed in these cell lines appear to be aggregates of subunits which are not assembly intermediates and are not assembly-competent. The portion which migrates as monomer, in contrast, appears to be the fraction which is assembly competent. This fraction increases at temperatures more permissive for assembly, further indicating the importance of the monomer as the precursor to assembly of alpha 2 beta gamma delta pentamers.
利用表达来自加州电鳐烟碱型乙酰胆碱受体(AChR)亚基cDNA的哺乳动物细胞系来研究AChR组装的早期事件。为了验证单个亚基在组装成α2βγδ五聚体之前先形成同聚寡聚中间体的假说,我们分析了在细胞系中单独表达的每个亚基在蔗糖密度梯度上的沉降情况。我们之前已经表明,加州电鳐AChR亚基组装的急性温度敏感性部分归因于多肽链的错误折叠(保尔森,H.L.,和T. 克劳迪奥。1990。《细胞生物学杂志》110:1705 - 1717)。我们利用这一现象进一步分析假定的具有组装能力的中间体。在允许组装的温度下于非离子去污剂中,大多数α、β、γ和δ亚基既不沉降为3 - 4S单体也不沉降为9S复合物,而是沉降为6S物质,无论它们是在成纤维细胞、成肌细胞还是分化的肌管中合成。几个结果表明6S物质是主要由错误折叠的亚基多肽组成的复合物。这些复合物代表在细胞内迅速形成的同聚物,对温和的SDS处理稳定,并且就α亚基而言,含有一些二硫键连接的亚基。α亚基与BiP或GRP78(一种内质网驻留蛋白)的共沉淀进一步表明,这些内部隔离的亚基中至少有一些也与一种涉及蛋白质折叠的内源性蛋白相关。在这些细胞系中表达的大多数亚基似乎是亚基的聚集体,它们不是组装中间体,也不具有组装能力。相比之下,以单体形式迁移的部分似乎是具有组装能力的部分。这一部分在更有利于组装的温度下增加,进一步表明单体作为α2βγδ五聚体组装前体的重要性。