Gray T E, Eisenstein M, Shimon T, Givol D, Yayon A
Department of Chemical Immunology, Weizmann Institute of Science, Rehovot, Israel.
Biochemistry. 1995 Aug 22;34(33):10325-33. doi: 10.1021/bi00033a002.
The fibroblast growth factor receptor 2 (FGFR2) and the keratinocyte growth factor receptor (KGFR) have different ligand binding specificities despite differing only in the second half of their immunoglobulin-like (Ig-like) domain III. Three-dimensional model structures were generated for domain III on the basis of variable (V) Ig domains. The region that differs between the two receptors is predicted to include two loops: one connects beta-strands F-G and is analogous to the complementarity determining region 3 (CDR3) of immunoglobulins; the other connects beta-strands D-E. These regions were targeted for mutagenesis. Single mutations in the F-G loop were found to only slightly alter ligand binding, whereas a double mutant, KGFR Y345-->S,Q348-->I, acquired significant affinity for bFGF. Notably, the affinity of this double mutant KGFR for KGF and aFGF was essentially unaltered. A mutant FGFR2, in which the D-E beta-hairpin (T319TDKEI) is replaced with the KGFR D-E beta-hairpin (S319SNA), has 9-fold reduced affinity for bFGF. These results demonstrate that the F-G or CDR3 analogous loop in FGFRs plays a key role in determining ligand binding and specificity. In addition, however, the protein loop connecting beta-strands D and E may also be involved in ligand binding. Several point mutations in FGFR2, shown recently to give rise to multiple inherited skeletal defects, are localized according to our models to the F-G or D-E loops of domain III. Our results strongly suggest that these naturally occurring mutations specifically alter ligand binding by FGFR2.
成纤维细胞生长因子受体2(FGFR2)和角质形成细胞生长因子受体(KGFR)尽管仅在其免疫球蛋白样(Ig样)结构域III的后半部分有所不同,但具有不同的配体结合特异性。基于可变(V)Ig结构域生成了结构域III的三维模型结构。预测这两种受体之间不同的区域包括两个环:一个连接β链F - G,类似于免疫球蛋白的互补决定区3(CDR3);另一个连接β链D - E。这些区域被作为诱变靶点。发现在F - G环中的单个突变仅轻微改变配体结合,而双突变体KGFR Y345→S、Q348→I对碱性成纤维细胞生长因子(bFGF)获得了显著的亲和力。值得注意的是,这种双突变体KGFR对角质形成细胞生长因子(KGF)和酸性成纤维细胞生长因子(aFGF)的亲和力基本未改变。一种突变型FGFR2,其中D - Eβ发夹结构(T319TDKEI)被KGFR的D - Eβ发夹结构(S319SNA)取代,对bFGF的亲和力降低了9倍。这些结果表明,FGFRs中的F - G或CDR3类似环在决定配体结合和特异性方面起关键作用。然而,此外,连接β链D和E的蛋白质环也可能参与配体结合。最近显示会导致多种遗传性骨骼缺陷的FGFR2中的几个点突变,根据我们的模型定位在结构域III的F - G或D - E环中。我们的结果强烈表明,这些自然发生的突变特异性地改变了FGFR2的配体结合。
