Chen Ce-Belle, Wallis Russell
Glycobiology Institute, Department of Biochemistry, University of Oxford, Oxford OX1 3QU, United Kingdom.
J Biol Chem. 2004 Jun 18;279(25):26058-65. doi: 10.1074/jbc.M401318200. Epub 2004 Apr 1.
Serum mannose-binding protein (MBP) neutralizes invading microorganisms by binding to cell surface carbohydrates and activating MBP-associated serine proteases-1, -2, and -3 (MASPs). MASP-2 subsequently cleaves complement components C2 and C4 to activate the complement cascade. To analyze the mechanisms of activation and substrate recognition by MASP-2, zymogen and activated forms have been produced, and MBP.MASP-2 complexes have been created. These preparations have been used to show that MBP modulates MASP-2 activity in two ways. First, MBP stimulates MASP-2 autoactivation by increasing the rate of autocatalysis when MBP.MASP-2 complexes bind to a glycan-coated surface. Second, MBP occludes accessory C4-binding sites on MASP-2 until activation occurs. Once these sites become exposed, MASP-2 binds to C4 while separate structural changes create a functional catalytic site able to cleave C4. Only activated MASP-2 binds to C2, suggesting that this substrate interacts only near the catalytic site and not at accessory sites. MASP-1 cleaves C2 almost as efficiently as MASP-2 does, but it does not cleave C4. Thus MASP-1 probably enhances complement activation triggered by MBP.MASP-2 complexes, but it cannot initiate activation itself.
血清甘露糖结合蛋白(MBP)通过与细胞表面碳水化合物结合并激活MBP相关丝氨酸蛋白酶-1、-2和-3(MASPs)来中和入侵的微生物。MASP-2随后裂解补体成分C2和C4以激活补体级联反应。为了分析MASP-2的激活机制和底物识别,已制备了酶原和活化形式,并构建了MBP.MASP-2复合物。这些制剂已被用于表明MBP以两种方式调节MASP-2活性。首先,当MBP.MASP-2复合物与聚糖包被的表面结合时,MBP通过提高自身催化速率来刺激MASP-2自激活。其次,MBP封闭MASP-2上的辅助C4结合位点,直到激活发生。一旦这些位点暴露,MASP-2与C4结合,同时单独的结构变化产生一个能够裂解C4的功能性催化位点。只有活化的MASP-2与C2结合,这表明该底物仅在催化位点附近相互作用,而不在辅助位点相互作用。MASP-1裂解C2的效率几乎与MASP-2相同,但它不裂解C4。因此,MASP-1可能增强由MBP.MASP-2复合物触发的补体激活,但它本身不能启动激活。
