Iwai Miwako, Michikawa Takayuki, Bosanac Ivan, Ikura Mitsuhiko, Mikoshiba Katsuhiko
Division of Molecular Neurobiology, Department of Basic Medical Sciences, Institute of Medical Science, University of Tokyo, 4-6-1 Shirokanedai, Minato-ku, Tokyo 108-8639, Japan.
J Biol Chem. 2007 Apr 27;282(17):12755-64. doi: 10.1074/jbc.M609833200. Epub 2007 Feb 27.
Three isoforms of the inositol 1,4,5-trisphosphate (IP(3)) receptor (IP(3)R), IP(3)R1, IP(3)R2, and IP(3)R3, have different IP(3)-binding affinities and cooperativities. Here we report that the amino-terminal 604 residues of three mouse IP(3)R types exhibited K(d) values of 49.5 +/- 10.5, 14.0 +/- 3.5, and 163.0 +/- 44.4 nm, which are close to the intrinsic IP(3)-binding affinity previously estimated from the analysis of full-length IP(3)Rs. In contrast, residues 224-604 of IP(3)R1 and IP(3)R2 and residues 225-604 of IP(3)R3, which contain the IP(3)-binding core domain but not the suppressor domain, displayed an almost identical IP(3)-binding affinity with a K(d) value of approximately 2 nm. Addition of 100-fold excess of the suppressor domain did not alter the IP(3)-binding affinity of the IP(3)-binding core domain. Artificial chimeric proteins in which the suppressor domain was fused to the IP(3)-binding core domain from different isoforms exhibited IP(3)-binding affinity significantly different from those of the proteins composed of the native combination of the suppressor domain and the IP(3)-binding core domain. Systematic mutagenesis analyses showed that amino acid residues critical for type-3 receptor-specific IP(3)-binding affinity are involved in Glu-39, Ala-41, Asp-46, Met-127, Ala-154, Thr-155, Leu-162, Trp-168, Asn-173, Asn-176, and Val-179. These results indicate that the IP(3)-binding affinity of IP(3)Rs is specifically tuned through the intramolecular attenuation of IP(3)-binding affinity of the IP(3)-binding core domain by the amino-terminal suppressor domain. Moreover, the functional diversity in ligand sensitivity among IP(3)R isoforms originates from at least the structural difference identified on the suppressor domain.
肌醇1,4,5 -三磷酸(IP(3))受体有三种亚型,即IP(3)R1、IP(3)R2和IP(3)R3,它们具有不同的IP(3)结合亲和力和协同性。在此我们报告,三种小鼠IP(3)R亚型的氨基末端604个残基的解离常数(K(d))值分别为49.5±10.5、14.0±3.5和163.0±44.4纳米,这与之前通过对全长IP(3)R分析估计的内在IP(3)结合亲和力相近。相比之下,IP(3)R1和IP(3)R2的224 - 604位残基以及IP(3)R3的225 - 604位残基,它们包含IP(3)结合核心结构域但不包含抑制结构域,显示出几乎相同的IP(3)结合亲和力,K(d)值约为2纳米。加入100倍过量的抑制结构域并不会改变IP(3)结合核心结构域的IP(3)结合亲和力。人工构建的嵌合蛋白,其中抑制结构域与来自不同亚型的IP(3)结合核心结构域融合,其显示出的IP(3)结合亲和力与由抑制结构域和IP(3)结合核心结构域天然组合构成的蛋白显著不同。系统的诱变分析表明,对3型受体特异性IP(3)结合亲和力至关重要的氨基酸残基包括Glu - 39、Ala - 41、Asp - 46、Met - 127、Ala - 154、Thr - 155、Leu - 162、Trp - 168、Asn - 173、Asn - 176和Val - 179。这些结果表明,IP(3)R的IP(3)结合亲和力是通过氨基末端抑制结构域对IP(3)结合核心结构域的IP(3)结合亲和力进行分子内衰减而特异性调节的。此外,IP(3)R亚型之间配体敏感性的功能多样性至少源于在抑制结构域上鉴定出的结构差异。
