Layton J E, Shimamoto G, Osslund T, Hammacher A, Smith D K, Treutlein H R, Boone T
Ludwig Institute for Cancer Research, Melbourne Tumour Biology Branch, Parkville 3050, Australia.
J Biol Chem. 1999 Jun 18;274(25):17445-51. doi: 10.1074/jbc.274.25.17445.
Granulocyte colony-stimulating factor (G-CSF) forms a tetrameric complex with its receptor, comprising two G-CSF and two receptor molecules. The structure of the complex is unknown, and it is unclear whether there are one or two binding sites on G-CSF and the receptor. The immunoglobulin-like domain and the cytokine receptor homologous module of the receptor are involved in G-CSF binding, and Arg288 in the cytokine receptor homologous module is particularly important. To identify residues in G-CSF that interact with Arg288, selected charged residues in G-CSF were mutated to Ala. To clarify whether there are two binding sites, a chimeric receptor was created in which the Ig domain was replaced with that of the related receptor gp130. This chimera bound G-CSF but could not transduce a signal, consistent with failure of dimerization and loss of one binding site. The G-CSF mutants had reduced mitogenic activity on cells expressing wild-type receptor. When tested with the chimeric receptor, all G-CSF mutants except one (E46A) showed reduced binding, suggesting that Glu46 is important for interaction with the Ig domain. On cells expressing R288A receptor, all the G-CSF mutants except E19A showed reduced mitogenic activity, indicating that Glu19 of G-CSF interacts with Arg288 of the receptor.
粒细胞集落刺激因子(G-CSF)与其受体形成四聚体复合物,由两个G-CSF分子和两个受体分子组成。该复合物的结构尚不清楚,G-CSF和受体上是有一个还是两个结合位点也不明确。受体的免疫球蛋白样结构域和细胞因子受体同源模块参与G-CSF的结合,细胞因子受体同源模块中的精氨酸288(Arg288)尤为重要。为了确定G-CSF中与Arg288相互作用的残基,将G-CSF中选定的带电荷残基突变为丙氨酸(Ala)。为了阐明是否存在两个结合位点,构建了一种嵌合受体,其中免疫球蛋白(Ig)结构域被相关受体gp130的结构域取代。这种嵌合体能够结合G-CSF,但无法转导信号,这与二聚化失败和一个结合位点丧失一致。G-CSF突变体对表达野生型受体的细胞的促有丝分裂活性降低。当用嵌合受体进行测试时,除了一个突变体(E46A)外,所有G-CSF突变体的结合能力均降低,这表明谷氨酸46(Glu46)对于与Ig结构域的相互作用很重要。在表达R288A受体的细胞上,除E19A外,所有G-CSF突变体的促有丝分裂活性均降低,这表明G-CSF的谷氨酸19(Glu19)与受体的精氨酸288(Arg288)相互作用。
