Vallon R, Müller R, Moosmayer D, Gerlach E, Angel P
Deutsches Krebsforschungszentrum Heidelberg, Abteilung Signaltransduktion und Wachstumskontrolle, Germany.
Eur J Biochem. 1997 Feb 15;244(1):81-8. doi: 10.1111/j.1432-1033.1997.00081.x.
Here, we describe the production of recombinant human tissue inhibitor of metalloproteinases-1 (rTIMP-1) and wild-type and mutant human collagenase type I (rMMP-1) proteins in SF9 cells by the baculovirus expression system. Wild-type MMP-1, as well as the MMP-1 mutant lacking the C-terminal hemopexin-like domain [des-(248-450)-MMP-1], exhibit enzymatic activity upon cleavage of the prodomain by treatment with trypsin or 4-aminophenylmercuric acetate. Enzyme activity of both proteins can be inhibited by addition of rTIMP. Deletion of the complete active-site [des-(161-228)-MMP-1] within the catalytic domain, or mutation of a single His residue of the Zn2+ binding domain (His199), generates stable forms of MMP-1 proteins which are unable to digest collagen type I or beta-casein. In addition to co-immunoprecipitation analysis, we have established a rapid and sensitive ELISA assay using immobilized rTIMP to determine the structural requirements of MMP-1 to form complexes with its inhibitor. Only the activated and not the latent forms of wild-type and C-terminal mutant des-(248-450)-MMP-1 proteins are able to form complexes with TIMP. Neither mutation of His199, nor deletion mutants des-(161-228)-MMP-1 and des-(161-228/248-450)-MMP-1, interact with TIMP. This demonstrates that the C-terminal hemopexin domain of MMP-1, in contrast to the corresponding regions of gelatinase A and gelatinase B, does not interact with TIMP-1. In summary, we have shown that the integrity of the catalytic domain of MMP-1 and its ability to bind Zn2+ is absolutely required for complex formation with TIMP-1, which further underlines the importance of this region for proper regulation of enzymatic activity of MMP-1.
在此,我们描述了通过杆状病毒表达系统在SF9细胞中生产重组人金属蛋白酶组织抑制剂-1(rTIMP-1)以及野生型和突变型人I型胶原酶(rMMP-1)蛋白的过程。野生型MMP-1以及缺乏C末端血红素结合蛋白样结构域的MMP-1突变体[des-(248-450)-MMP-1],在经胰蛋白酶或对氨基苯汞乙酸处理切割前结构域后表现出酶活性。两种蛋白的酶活性均可通过添加rTIMP来抑制。催化结构域内完整活性位点的缺失[des-(161-228)-MMP-1],或锌离子结合结构域单个组氨酸残基(His199)的突变,产生了无法消化I型胶原或β-酪蛋白的稳定形式的MMP-1蛋白。除了免疫共沉淀分析外,我们还建立了一种使用固定化rTIMP的快速灵敏的ELISA测定法,以确定MMP-1与其抑制剂形成复合物的结构要求。只有野生型和C末端突变体des-(248-450)-MMP-1蛋白的活化形式而非潜伏形式能够与TIMP形成复合物。His199的突变、缺失突变体des-(161-228)-MMP-1和des-(161-228/248-450)-MMP-1均不与TIMP相互作用。这表明与明胶酶A和明胶酶B的相应区域不同,MMP-1的C末端血红素结构域不与TIMP-1相互作用。总之,我们已经表明,MMP-1催化结构域的完整性及其结合锌离子的能力是与TIMP-1形成复合物所绝对必需的,这进一步强调了该区域对MMP-1酶活性的正确调节的重要性。
