Tsuji Y, Shimada Y, Takeshita T, Kajimura N, Nomura S, Sekiyama N, Otomo J, Usukura J, Nakanishi S, Jingami H
Departments of Molecular Biology and Structural Biology, Biomolecular Engineering Research Institute, 6-2-3 Furuedai, Suita-City, Osaka 565-0874, Japan.
J Biol Chem. 2000 Sep 8;275(36):28144-51. doi: 10.1074/jbc.M003226200.
Previously, we produced the whole extracellular region of metabotropic glutamate receptor subtype 1 (mGluR1) in a soluble form. The soluble receptor retained a ligand affinity comparable with that of the full-length membrane-bound receptor and formed a disulfide-linked dimer. Here, we have identified a cysteine residue responsible for the intermolecular disulfide bond and determined domain organization of the extracellular region of mGluR1. A mutant, C140A, was a monomer under nonreduced conditions by SDS-polyacrylamide gel electrophoresis; however, C140A was eluted at the position similar to that of mGluR113, the wild type soluble receptor, by size exclusion column chromatography. Furthermore, C140A bound a ligand, [(3)H]quisqualate, with an affinity similar to that obtained by mGluR113. Oocytes injected with RNA for full-length mGluR1 containing C140A mutation showed responses to ligands at magnitudes similar to those with wild type full-length RNA. Thus, elimination of the disulfide linkage did not perturb the dimer formation and ligand signaling, suggesting that cryptic dimer interface(s) possibly exist in mGluR1. Limited proteolysis of the whole extracellular fragment (residue 33-592) revealed two trypsin-sensitive sites, after the residues Arg(139) and Arg(521). A 15-kDa NH(2)-terminal proteolytic fragment (residue 33-139) was associated with the downstream part after the digestion. Arg(521) was located before a cysteine-rich stretch preceding the transmembrane region. A new shorter soluble receptor (residue 33-522) lacking the cysteine-rich region was designed based on the protease-sensitive boundary. The purified receptor protein gave a K(d) value of 58.1 +/- 0.84 nm, which is compatible to a reported value of the full-length receptor. The B(max) value was 7.06 +/- 0. 82 nmol/mg of protein. These results indicated that the ligand-binding specificity of mGluR1 is confined to the NH(2)-terminal 490-amino acid region of the mature protein.
此前,我们以可溶形式制备了代谢型谷氨酸受体1亚型(mGluR1)的整个细胞外区域。可溶性受体保留了与全长膜结合受体相当的配体亲和力,并形成了二硫键连接的二聚体。在此,我们鉴定了负责分子间二硫键的半胱氨酸残基,并确定了mGluR1细胞外区域的结构域组织。通过SDS-聚丙烯酰胺凝胶电泳,突变体C140A在非还原条件下为单体;然而,通过尺寸排阻柱色谱法,C140A在与野生型可溶性受体mGluR113相似的位置被洗脱。此外,C140A与配体[³H]喹啉酸结合,其亲和力与mGluR113相似。注射含有C140A突变的全长mGluR1 RNA的卵母细胞对配体的反应强度与野生型全长RNA相似。因此,二硫键的消除并未干扰二聚体的形成和配体信号传导,这表明mGluR1中可能存在隐蔽的二聚体界面。对整个细胞外片段(残基33 - 592)进行有限的蛋白酶水解,发现了两个胰蛋白酶敏感位点,分别位于残基Arg(139)和Arg(521)之后。一个15 kDa的NH₂末端蛋白水解片段(残基33 - 139)在消化后与下游部分相关联。Arg(521)位于跨膜区域之前富含半胱氨酸的区域之前。基于蛋白酶敏感边界设计了一种新的缺少富含半胱氨酸区域的较短可溶性受体(残基33 - 522)。纯化的受体蛋白的K(d)值为58.1±0.84 nM,与报道的全长受体值相符。B(max)值为7.06±0.82 nmol/mg蛋白质。这些结果表明,mGluR1的配体结合特异性局限于成熟蛋白的NH₂末端490个氨基酸区域。
