Institute of Complex Systems, Structural Biochemistry, Research Center Jülich, 52425 Jülich, Germany.
Proc Natl Acad Sci U S A. 2011 Apr 12;108(15):6121-6. doi: 10.1073/pnas.1015890108. Epub 2011 Mar 23.
Cyclic nucleotide-sensitive ion channels, known as HCN and CNG channels, are activated by binding of ligands to a domain (CNBD) located on the cytoplasmic side of the channel. The underlying mechanisms are not well understood. To elucidate the gating mechanism, structures of both the ligand-free and -bound CNBD are required. Several crystal structures of the CNBD from HCN2 and a bacterial CNG channel (MloK1) have been solved. However, for HCN2, the cAMP-free and -bound state did not reveal substantial structural rearrangements. For MloK1, structural information for the cAMP-free state has only been gained from mutant CNBDs. Moreover, in the crystal, the CNBD molecules form an interface between dimers, proposed to be important for allosteric channel gating. Here, we have determined the solution structure by NMR spectroscopy of the cAMP-free wild-type CNBD of MloK1. A comparison of the solution structure of cAMP-free and -bound states reveals large conformational rearrangement on ligand binding. The two structures provide insights on a unique set of conformational events that accompany gating within the ligand-binding site.
环核苷酸敏感的离子通道,被称为 HCN 和 CNG 通道,通过配体与位于通道胞质侧的结构域(CNBD)的结合而被激活。但其潜在的机制尚不清楚。为了阐明门控机制,需要获得配体游离和结合的 CNBD 的结构。已经解决了来自 HCN2 和一种细菌 CNG 通道(MloK1)的 CNBD 的几个晶体结构。然而,对于 HCN2,cAMP 游离和结合状态并没有显示出实质性的结构重排。对于 MloK1,cAMP 游离状态的结构信息仅从突变的 CNBD 中获得。此外,在晶体中,CNBD 分子在二聚体之间形成一个界面,该界面被认为对变构通道门控很重要。在这里,我们通过 NMR 光谱法确定了 MloK1 的 cAMP 游离野生型 CNBD 的溶液结构。对配体结合时 cAMP 游离和结合状态的结构比较揭示了配体结合时的大构象重排。这两个结构提供了在配体结合位点内伴随门控的一组独特构象事件的见解。