Ycf1p的结构揭示了跨膜结构域TMD0和ABCC转运体的调控区域

S. Bickers, S. Benlekbir, J. Rubinstein, V. Kanelis
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引用次数: 17

摘要

Ycf1p结构为ABCC转运体的TMD0结构域和连接NBD1和TMD2的调控(R)区域的两个片段提供了原子模型。Ycf1p中TMD0的取向不同于SUR1 (KATP通道中的调节ABCC蛋白),显示TMD0/ABC核心接触的灵活性。该结构提示了R区的翻译后修饰如何调节ABC蛋白活性,并提供了由于Ycf1p人类同源物突变而发生的几种疾病的机制理解。ATP结合盒(ABC)蛋白通常在溶质跨膜的主动运输中起作用。ABC核心结构由两个跨膜结构域(TMD1和TMD2)和两个胞质核苷酸结合结构域(NBD1和NBD2)组成。ABC (ABCC)蛋白c亚家族的一些成员,包括人多药耐药蛋白(MRPs),也具有n端跨膜结构域(TMD0),该结构域包含5个跨膜α-螺旋,并通过L0连接器连接到ABC核心。虽然TMD0在非典型ABCC蛋白SUR1中被分解,SUR1是异源八聚体atp敏感K+通道的一部分,但对TMD0在单体ABC转运蛋白中的结构知之甚少。在这里,我们展示了酵母镉因子1蛋白(Ycf1p)的结构,它是人类MRP1的同源物,通过电子冷冻显微镜(cryo-EM)测定。比较Ycf1p、SUR1和MRP1低分辨率显示TMD0的结构表明,TMD0相对于ABC核心可以采用不同的取向,包括Ycf1p和SUR1之间的~ 145°旋转。低温电镜图谱还显示,连接NBD1和TMD2的调控区(R)片段在早期的ABCC结构中很难被分解,它与L0连接子、NBD1和TMD2相互作用。这些相互作用,结合分离的NBD1带和不带R区的荧光猝灭实验,表明R区的翻译后修饰如何调节ABC蛋白活性。将MRP2和MRP6的已知突变映射到Ycf1p结构上,解释了涉及这些蛋白质的TMD0和R区域的突变如何导致疾病。
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Structure of Ycf1p reveals the transmembrane domain TMD0 and the regulatory region of ABCC transporters
Significance The Ycf1p structure provides an atomic model for the TMD0 domain of ABCC transporters and for two segments of the regulatory (R) region that links NBD1 to TMD2. The orientation of TMD0 in Ycf1p differs from that seen in SUR1, the regulatory ABCC protein in KATP channels, demonstrating flexibility in TMD0/ABC core contacts. The structure suggests how posttranslational modifications of the R region modulate ABC protein activity and provides a mechanistic understanding of several diseases that occur due to mutation of human homologs of Ycf1p. ATP binding cassette (ABC) proteins typically function in active transport of solutes across membranes. The ABC core structure is composed of two transmembrane domains (TMD1 and TMD2) and two cytosolic nucleotide binding domains (NBD1 and NBD2). Some members of the C-subfamily of ABC (ABCC) proteins, including human multidrug resistance proteins (MRPs), also possess an N-terminal transmembrane domain (TMD0) that contains five transmembrane α-helices and is connected to the ABC core by the L0 linker. While TMD0 was resolved in SUR1, the atypical ABCC protein that is part of the hetero-octameric ATP-sensitive K+ channel, little is known about the structure of TMD0 in monomeric ABC transporters. Here, we present the structure of yeast cadmium factor 1 protein (Ycf1p), a homolog of human MRP1, determined by electron cryo-microscopy (cryo-EM). A comparison of Ycf1p, SUR1, and a structure of MRP1 that showed TMD0 at low resolution demonstrates that TMD0 can adopt different orientations relative to the ABC core, including a ∼145° rotation between Ycf1p and SUR1. The cryo-EM map also reveals that segments of the regulatory (R) region, which links NBD1 to TMD2 and was poorly resolved in earlier ABCC structures, interacts with the L0 linker, NBD1, and TMD2. These interactions, combined with fluorescence quenching experiments of isolated NBD1 with and without the R region, suggest how posttranslational modifications of the R region modulate ABC protein activity. Mapping known mutations from MRP2 and MRP6 onto the Ycf1p structure explains how mutations involving TMD0 and the R region of these proteins lead to disease.
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