Petersen L C, Birktoft J J, Flodgaard H
Novo Nordisk A/S, Gentofte, Denmark.
Eur J Biochem. 1993 May 15;214(1):271-9. doi: 10.1111/j.1432-1033.1993.tb17921.x.
Heparin-binding protein (HBP; also known as CAP37 or azurocidin) is a member of the serine proteinase family. Evolution, however, has reverted this protein into a non-proteolytic form by mutation of two of the three residues of the active-site triad. Although proteolytically inactive, the human heparin-binding protein (hHBP) is still capable of binding bovine pancreatic trypsin inhibitor (BPTI). This was demonstrated by affinity chromatography to BPTI immobilized on a solid matrix and by studies on plasmin inhibition kinetics. hHBP competes with plasmin for BPTI and this effect on plasmin inhibition has been analyzed in terms of a kinetic model. A dissociation constant, Kd = 0.1 microM, was found for the interaction between BPTI and hHBP. The hHBP provides an example of a serine proteinase which has lost its catalytic function by reverting residues of the active center while still preserving its capability of specific interactions with Kunitz inhibitors. pHBP, the porcine counterpart to hHBP, on the other hand, was incapable of BPTI binding. The structural basis for the BPTI binding to the human protein and the species difference is discussed in terms of putative three-dimensional structures of the proteins derived by comparative molecular modelling methods.
肝素结合蛋白(HBP;也称为CAP37或天青杀素)是丝氨酸蛋白酶家族的一员。然而,进化通过使活性位点三联体的三个残基中的两个发生突变,将该蛋白转变为非蛋白水解形式。尽管人肝素结合蛋白(hHBP)没有蛋白水解活性,但它仍然能够结合牛胰蛋白酶抑制剂(BPTI)。通过对固定在固体基质上的BPTI进行亲和层析以及对纤溶酶抑制动力学的研究,证实了这一点。hHBP与纤溶酶竞争BPTI,并且已根据动力学模型分析了这种对纤溶酶抑制的影响。发现BPTI与hHBP之间相互作用的解离常数Kd = 0.1微摩尔。hHBP提供了一个丝氨酸蛋白酶的例子,该蛋白酶通过使活性中心的残基回复而失去了催化功能,同时仍保留了与库尼茨抑制剂特异性相互作用的能力。另一方面,hHBP的猪对应物pHBP不能结合BPTI。根据通过比较分子建模方法推导的蛋白质的假定三维结构,讨论了BPTI与人蛋白结合的结构基础以及物种差异。
