CCT 亚基的共表达暗示了 TRiC 的组装。

Cell Stress and Chaperones Pub Date : 2019-11-01 Epub Date: 2019-08-13 DOI:10.1007/s12192-019-01028-5
Oksana A Sergeeva, Cameron Haase-Pettingell, Jonathan A King
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引用次数: 0

摘要

真核细胞胞质合子蛋白--t-复合物多肽 1(TCP-1)环状复合物或 TRiC 负责折叠细胞中十分之一的蛋白质。TRiC 是一个双环桶,每个环由八个不同的 CCT(含 TCP-1 的伴侣素)亚基组成。为了使这些亚基组装成成熟的 TRiC(据说每个环只包含一个这些亚基),它们必须从不同的染色体翻译过来,正确折叠并组装。有趣的是,当亚基 CCT4 和 CCT5 在大肠杆菌中单独表达时,它们会形成类似 TRiC 的同源异构环。为了探索潜在的亚基与亚基之间的相互作用,我们将这些同源异构化的 CCT4 和 CCT5 亚基或古生伴侣素 Mm-Cpn(Methanococcus maripaludis chaperonin)与 CCT1-8 共表达。我们发现,除 CCT6 外,CCT5 使所有 CCT 亚基转变为类似 TRiC 的双管复合物,而 CCT4 只与 CCT5 和 CCT8 相互作用,形成伴侣素环。我们推测,这些特殊的相互作用可能是由于在大肠杆菌中形成了异质异构体,不过还需要更多的工作来验证。我们还观察到 CCT5 和 Mm-Cpn 与 CCT 亚基的较小片段相互作用,证实了它们的内在伴侣活性。根据这些异质同源异构体数据,我们认为 TRiC 的组装依赖于亚基交换,以一些稳定的同源异构体(可能是 CCT5)作为基本组装单元。最终,对不同组织和不同发育时期 CCT 排列的分析有望为 TRiC 组装和 CCT 亚基组成提供更多信息。
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Co-expression of CCT subunits hints at TRiC assembly.

The eukaryotic cytosolic chaperonin, t-complex polypeptide 1 (TCP-1) ring complex or TRiC, is responsible for folding a tenth of the proteins in the cell. TRiC is a double-ringed barrel with each ring composed of eight different CCT (chaperonin containing TCP-1) subunits. In order for the subunits to assemble together into mature TRiC, which is believed to contain one and only one of each of these subunits per ring, they must be translated from different chromosomes, correctly folded and assembled. When expressed alone in Escherichia coli, the subunits CCT4 and CCT5, interestingly, form TRiC-like homo-oligomeric rings. To explore potential subunit-subunit interactions, we co-expressed these homo-oligomerizing CCT4 and CCT5 subunits or the archaeal chaperonin Mm-Cpn (Methanococcus maripaludis chaperonin) with CCT1-8, one at a time. We found that CCT5 shifted all of the CCT subunits, with the exception of CCT6, into double-barrel TRiC-like complexes, while CCT4 only interacted with CCT5 and CCT8 to form chaperonin rings. We hypothesize that these specific interactions may be due to the formation of hetero-oligomers in E. coli, although more work is needed for validation. We also observed the interaction of CCT5 and Mm-Cpn with smaller fragments of the CCT subunits, confirming their intrinsic chaperone activity. Based on this hetero-oligomer data, we propose that TRiC assembly relies on subunit exchange with some stable homo-oligomers, possibly CCT5, as base assembly units. Eventually, analysis of CCT arrangement in various tissues and at different developmental times is anticipated to provide additional insight on TRiC assembly and CCT subunit composition.

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