Pegan Scott, Tan Joshua, Huang Alan, Slesinger Paul A, Riek Roland, Choe Senyon
Structural Biology, The Salk Institute, La Jolla, California 92037, USA.
Biochemistry. 2007 May 8;46(18):5315-22. doi: 10.1021/bi062228q. Epub 2007 Apr 17.
Control of surface expression of inwardly rectifying potassium (Kir) channels is important for regulating membrane excitability. Kir2 channels have been shown to interact directly with PDZ-containing proteins in the postsynaptic density (PSD). These scaffold proteins, such as PSD95, bind to Kir2.1 channels via a PDZ-binding motif (T/S-x-Phi) in the C-terminal tail (SEI428). By utilizing a multidimensional solution NMR approach, we show that the previously unresolved structure of Kir2.1 tail (residues 372-428) is highly flexible. Using in vitro binding assays, we determined that shortening the flexible tail of Kir2.1 preceding the C-terminal region (residues 414-428) does not significantly disrupt PDZ binding. We also investigated which amino acids in the Kir2.1 tail associated with PSD95 PDZ1,2 by NMR spectroscopy, revealing that a stretch of 12 C-terminal amino acids is involved in interaction with both PDZ domains (residues 417-428). Deletion of the 11 amino acids preceding the C-terminal tail, Delta414-424, completely disrupts binding to PSD95 PDZ1,2. Therefore, the molecular interfaces formed between PDZ domains and Kir2.1 tail involve regions outside the previously identified binding motif (SEI428) and may be important for additional channel-specific interactions with associating PDZ-containing proteins.
内向整流钾(Kir)通道的表面表达调控对于调节膜兴奋性至关重要。已表明Kir2通道可与突触后致密区(PSD)中含PDZ的蛋白直接相互作用。这些支架蛋白,如PSD95,通过C末端尾巴(SEI428)中的PDZ结合基序(T/S-x-Phi)与Kir2.1通道结合。通过利用多维溶液核磁共振方法,我们表明Kir2.1尾巴(残基372 - 428)先前未解析的结构具有高度灵活性。使用体外结合试验,我们确定缩短Kir2.1 C末端区域之前的灵活尾巴(残基414 - 428)不会显著破坏PDZ结合。我们还通过核磁共振光谱研究了Kir2.1尾巴中哪些氨基酸与PSD95 PDZ1、2相关,揭示了一段12个C末端氨基酸参与与两个PDZ结构域的相互作用(残基417 - 428)。删除C末端尾巴之前的11个氨基酸,即Delta414 - 424,会完全破坏与PSD95 PDZ1、2的结合。因此,PDZ结构域与Kir2.1尾巴之间形成的分子界面涉及先前确定的结合基序(SEI428)之外的区域,并且可能对于与相关含PDZ蛋白的额外通道特异性相互作用很重要。
