Wen D, Boissel J P, Showers M, Ruch B C, Bunn H F
Hematology/Oncology Division, Brigham and Women's Hospital, Harvard Medical School, Boston, Massachusetts 02115.
J Biol Chem. 1994 Sep 9;269(36):22839-46.
In order to delineate functionally important domains in erythropoietin (Epo), we have prepared and tested a series of amino acid replacements at 51 conserved sites predicted to be on the surface of the molecule. Alanine replacements permitted preservation of alpha-helical structure. Wild type and mutant Epo cDNAs were transiently expressed at high levels in COS1 and COS7 cells. The biological activity of wild type and mutant Epos was assayed in three Epo-responsive cell types: primary murine erythroid spleen cells, the murine HCD57 erythroleukemia cell line, and the human UT7-EPO leukemia cell line. When Arg14 on predicted Helix A was replaced by Ala, biological activity was substantially reduced, whereas replacement with Glu resulted in total loss of specific bioactivity. In a similar manner, the mutein Arg103-->Ala in Helix C was completely lacking in biological activity, whereas both Ser104-->Ala and Leu108-->Ala had decreased bioactivity. In Helix D, the mutein Gly151-->Ala had markedly decreased bioactivity, whereas that of the adjacent Lys152-->Ala mutein was moderately impaired. In contrast, Ala replacements at three nearby sites on Helix D (147, 146, and 143) resulted in muteins with increased bioactivity. In conclusion, our mutagenesis experiments have identified functionally important domains on the surface of the Epo molecule, at sites comparable with those established for other cytokines.
为了描绘促红细胞生成素(Epo)中功能重要的结构域,我们制备并测试了一系列在预测位于分子表面的51个保守位点处的氨基酸替换。丙氨酸替换可保留α-螺旋结构。野生型和突变型Epo cDNA在COS1和COS7细胞中高水平瞬时表达。在三种Epo反应性细胞类型中测定野生型和突变型Epo的生物活性:原代小鼠红系脾细胞、小鼠HCD57红白血病细胞系和人UT7-EPO白血病细胞系。当预测的A螺旋上的Arg14被Ala替换时,生物活性大幅降低,而被Glu替换则导致特异性生物活性完全丧失。以类似的方式,C螺旋中的突变体Arg103→Ala完全缺乏生物活性,而Ser104→Ala和Leu108→Ala的生物活性均降低。在D螺旋中,突变体Gly151→Ala的生物活性显著降低,而相邻的Lys152→Ala突变体的生物活性则中度受损。相比之下,D螺旋上附近三个位点(147、146和143)的Ala替换产生了生物活性增加的突变体。总之,我们的诱变实验确定了Epo分子表面功能重要的结构域,其位点与其他细胞因子所确定的位点相当。
