APC型FurE转运体的最后两个跨膜螺旋起到了分子内伴侣的作用,这对浓缩的ER排出至关重要。

IF 4.1 3区 生物学 Q2 CELL BIOLOGY Microbial Cell Pub Date : 2024-01-05 eCollection Date: 2024-01-01 DOI:10.15698/mic2024.01.811
Yiannis Pyrris, Georgia F Papadaki, Emmanuel Mikros, George Diallinas
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引用次数: 0

摘要

FurE 是真菌黑曲霉(Aspergillus nidulans)中的一种 H+ 交感器,专门用于细胞吸收尿酸、尿囊素、尿嘧啶和有毒的核碱基类似物。作为 NCS1 蛋白家族的成员,FurE 在结构上与 APC 超家族转运体有关。APC 型转运体的特征是由十个跨膜片段(TMS1-10)组成的 5+5 反向重复折叠,并通过摇动捆绑机制发挥作用。大多数 APC 型转运体都有两个额外的 C 端 TMS 区段(TMS11-12),但其功能仍不明确。在这里,我们对 FurE 的 TMS11-12 进行了系统突变分析,结果表明,TMS12 中的两个特定芳香残基 Trp473 和 Tyr484 对于 ER 出体和向质膜(PM)的转运至关重要。分子建模显示,Trp473 和 Tyr484 可能通过与 TMS2(Leu91)、TMS3(Phe111)、TMS10(Val404、Asp406)中的残基以及 TMS12 中的其他芳香残基的动态相互作用而发挥重要作用。遗传分析证实了 Phe111、Asp406 和 TMS12 芳香残基在 FurE ER 退出中的重要作用。我们进一步发现,FurE-Y484F或FurE-W473A与野生型FurE共表达会导致显性阴性表型,这与FurE分子在特定微域中寡聚或分化以实现集中的ER排出和向PM运输的概念是一致的。重要的是,缺乏 TMS11-12 的截短型 FurE 无法再现对共表达野生型 FurE 运输的负面影响。总之,我们的研究表明,TMS11-12可作为分子内伴侣促进FurE的正常折叠,这似乎为FurE在ER-出口位点的分区提供了结构密码。
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The last two transmembrane helices in the APC-type FurE transporter act as an intramolecular chaperone essential for concentrative ER-exit.

FurE is a H+ symporter specific for the cellular uptake of uric acid, allantoin, uracil, and toxic nucleobase analogues in the fungus Aspergillus nidulans. Being member of the NCS1 protein family, FurE is structurally related to the APC-superfamily of transporters. APC-type transporters are characterised by a 5+5 inverted repeat fold made of ten transmembrane segments (TMS1-10) and function through the rocking-bundle mechanism. Most APC-type transporters possess two extra C-terminal TMS segments (TMS11-12), the function of which remains elusive. Here we present a systematic mutational analysis of TMS11-12 of FurE and show that two specific aromatic residues in TMS12, Trp473 and Tyr484, are essential for ER-exit and trafficking to the plasma membrane (PM). Molecular modeling shows that Trp473 and Tyr484 might be essential through dynamic interactions with residues in TMS2 (Leu91), TMS3 (Phe111), TMS10 (Val404, Asp406) and other aromatic residues in TMS12. Genetic analysis confirms the essential role of Phe111, Asp406 and TMS12 aromatic residues in FurE ER-exit. We further show that co-expression of FurE-Y484F or FurE-W473A with wild-type FurE leads to a dominant negative phenotype, compatible with the concept that FurE molecules oligomerize or partition in specific microdomains to achieve concentrative ER-exit and traffic to the PM. Importantly, truncated FurE versions lacking TMS11-12 are unable to reproduce a negative effect on the trafficking of co-expressed wild-type FurE. Overall, we show that TMS11-12 acts as an intramolecular chaperone for proper FurE folding, which seems to provide a structural code for FurE partitioning in ER-exit sites.

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来源期刊
Microbial Cell
Microbial Cell Multiple-
CiteScore
6.40
自引率
0.00%
发文量
32
审稿时长
12 weeks
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