Medical Biochemistry and Molecular Biology, Saarland University, Homburg, Germany.
Center for Bioinformatics, Saarland University, Saarbrücken, Germany.
FEBS J. 2020 Nov;287(21):4612-4640. doi: 10.1111/febs.15274. Epub 2020 Mar 20.
In mammalian cells, one-third of all polypeptides are integrated into the membrane or translocated into the lumen of the endoplasmic reticulum (ER) via the Sec61 channel. While the Sec61 complex facilitates ER import of most precursor polypeptides, the Sec61-associated Sec62/Sec63 complex supports ER import in a substrate-specific manner. So far, mainly posttranslationally imported precursors and the two cotranslationally imported precursors of ERj3 and prion protein were found to depend on the Sec62/Sec63 complex in vitro. Therefore, we determined the rules for engagement of Sec62/Sec63 in ER import in intact human cells using a recently established unbiased proteomics approach. In addition to confirming ERj3, we identified 22 novel Sec62/Sec63 substrates under these in vivo-like conditions. As a common feature, those previously unknown substrates share signal peptides (SP) with comparatively longer but less hydrophobic hydrophobic region of SP and lower carboxy-terminal region of SP (C-region) polarity. Further analyses with four substrates, and ERj3 in particular, revealed the combination of a slowly gating SP and a downstream translocation-disruptive positively charged cluster of amino acid residues as decisive for the Sec62/Sec63 requirement. In the case of ERj3, these features were found to be responsible for an additional immunoglobulin heavy-chain binding protein (BiP) requirement and to correlate with sensitivity toward the Sec61-channel inhibitor CAM741. Thus, the human Sec62/Sec63 complex may support Sec61-channel opening for precursor polypeptides with slowly gating SPs by direct interaction with the cytosolic amino-terminal peptide of Sec61α or via recruitment of BiP and its interaction with the ER-lumenal loop 7 of Sec61α. These novel insights into the mechanism of human ER protein import contribute to our understanding of the etiology of SEC63-linked polycystic liver disease. DATABASES: The mass spectrometry proteomics data have been deposited to the ProteomeXchange Consortium via the PRIDE partner repository (http://www.ebi.ac.uk/pride/archive/projects/Identifiers) with the dataset identifiers: PXD008178, PXD011993, and PXD012078. Supplementary information was deposited at Mendeley Data (https://data.mendeley.com/datasets/6s5hn73jcv/2).
在哺乳动物细胞中,三分之一的多肽通过 Sec61 通道整合到膜中或易位到内质网 (ER) 的腔中。虽然 Sec61 复合物促进了大多数前体多肽的 ER 导入,但 Sec62/Sec63 相关复合物以底物特异性的方式支持 ER 导入。到目前为止,主要是翻译后导入的前体和 ERj3 和朊病毒蛋白的两种共翻译导入的前体被发现在体外依赖 Sec62/Sec63 复合物。因此,我们使用最近建立的无偏蛋白质组学方法确定了完整的人细胞中 Sec62/Sec63 参与 ER 导入的规则。除了确认 ERj3 外,我们还在这些类似于体内的条件下鉴定了 22 种新的 Sec62/Sec63 底物。作为一个共同的特征,那些以前未知的底物与信号肽 (SP) 共享较长但疏水性较弱的 SP 疏水区和较低的羧基末端区 (C 区) 极性。对四种底物(特别是 ERj3)的进一步分析表明,一个缓慢的门控 SP 和一个下游易位破坏的带正电荷的氨基酸残基簇的组合是 Sec62/Sec63 需求的决定因素。对于 ERj3,这些特征被发现负责额外的免疫球蛋白重链结合蛋白 (BiP) 的需求,并与对 Sec61 通道抑制剂 CAM741 的敏感性相关。因此,人 Sec62/Sec63 复合物可能通过与 Sec61α 的胞质氨基末端肽直接相互作用或通过募集 BiP 及其与 Sec61α 的内质网腔环 7 的相互作用来支持具有缓慢门控 SP 的前体多肽的 Sec61 通道开放。这些对人类 ER 蛋白导入机制的新见解有助于我们理解 SEC63 相关多囊肝病的病因。数据库:质谱蛋白质组学数据已通过 PRIDE 合作伙伴存储库(http://www.ebi.ac.uk/pride/archive/projects/Identifiers)提交给 ProteomeXchange 联盟,并带有数据集标识符:PXD008178、PXD011993 和 PXD012078。补充信息已存放在 Mendeley Data(https://data.mendeley.com/datasets/6s5hn73jcv/2)上。
