Komesli S, Vivien D, Dutartre P
Département d'Immunologie, Laboratoires Fournier S.A., Daix, France.
Eur J Biochem. 1998 Jun 15;254(3):505-13. doi: 10.1046/j.1432-1327.1998.2540505.x.
Transforming growth factor-beta (TGF-beta) type-I and type-II receptors form a ligand-dependent heteromeric signalling complexes, in which transforming growth factor-beta receptor type II (TbetaRII) trends to act as the primary receptor. In the present study, we used a chimeric soluble type-II receptor fused with the Fc regions of human immunoglobulin (TbetaRIIs-Fc) in order to obtain a putative TGF-beta antagonist. Biochemical studies revealed that TbetaRIIs-Fc shared the same properties as the wild-type receptor. The TbetaRIIs-Fc receptor displayed an affinity of 1370 +/- 363 pM which was similar to those of the wild-type TbetaRII when expressed alone in Cos-1 cells (1122 +/- 413 pM). Furthermore, the chimeric receptor showed the same selectivity for TGF-beta isoforms as the native receptor. Although both TGF-beta1 and TGF-beta3 were able to bind TbetaBRIIs-Fc, TGF-beta2 could not compete with the binding of TGF-beta1 to TbetaRIIs-Fc. It was noted that this type of fused Fc receptor could be used in FlashPlate screening for potent agonism and antagonism of TGFbeta. Moreover, biological activities of the chimeric receptor showed it to be a potent TGF-beta1-antiproliferative and TGF-beta1-extracellular matrix transcriptional inhibitor on responses in Mv1Lu cells. To conclude, our results clearly show that the TbetaRIIs-Fc chimeric receptor could be used as a potent TGF-beta antagonist. These data raised the possibility that this TbetaRIIs-Fc construct might act successfully as an antagonist of both TGF-beta1 and TGF-beta3 in vivo.
转化生长因子-β(TGF-β)Ⅰ型和Ⅱ型受体形成一种依赖配体的异源信号复合物,其中转化生长因子-βⅡ型受体(TβRII)往往作为主要受体发挥作用。在本研究中,我们使用了一种与人免疫球蛋白Fc区融合的嵌合可溶性Ⅱ型受体(TβRIIs-Fc),以获得一种假定的TGF-β拮抗剂。生化研究表明,TβRIIs-Fc与野生型受体具有相同的特性。当单独在Cos-1细胞中表达时,TβRIIs-Fc受体显示出1370±363 pM的亲和力,这与野生型TβRII的亲和力(1122±413 pM)相似。此外,嵌合受体对TGF-β亚型的选择性与天然受体相同。虽然TGF-β1和TGF-β3都能够结合TβBRIIs-Fc,但TGF-β2不能与TGF-β1竞争结合TβRIIs-Fc。值得注意的是,这种融合Fc受体可用于FlashPlate筛选,以检测TGFβ的强效激动作用和拮抗作用。此外,嵌合受体的生物学活性表明它是一种强效的TGF-β1抗增殖剂和TGF-β1细胞外基质转录抑制剂,可抑制Mv1Lu细胞中的反应。总之,我们的结果清楚地表明,TβRIIs-Fc嵌合受体可作为一种强效的TGF-β拮抗剂。这些数据增加了这种TβRIIs-Fc构建体可能在体内成功作为TGF-β1和TGF-β3拮抗剂的可能性。
