de Cristofaro R, de Candia E, Croce G, Morosetti R, Landolfi R
Haemostasis Research Centre, Department of Internal Medicine, Catholic University of Rome, 00168 Rome, Italy.
Biochem J. 1998 Jun 15;332 ( Pt 3)(Pt 3):643-50. doi: 10.1042/bj3320643.
Thrombin interaction with platelet glycocalicin (GC), the 140 kDa extracytoplasmic fragment of the membrane glycoprotein Ib, was investigated by using a solid-phase assay. Thrombin bound to GC-coated polystyrene wells was detected by measuring the hydrolysis of a chromogenic substrate. The monoclonal antibody LJ-Ib10, which specifically binds to the thrombin-binding site of GC, could displace thrombin from immobilized GC, whereas the monoclonal antibody LJ-Ib1, which interacts with the von Willebrand factor-binding domain of GC, did not affect thrombin binding to GC. Competitive inhibition of thrombin binding to immobilized GC was also observed using GC in solution or ligands that bind to the thrombin heparin-binding site, such as heparin and prothrombin fragment 2. Furthermore functional experiments demonstrated that GC binding to thrombin competes with heparin for thrombin inactivation by the antithrombin III-heparin complex as well. Thrombin-GC interaction was also studied as a function of temperature over the range 4-37 degreesC. A large negative heat capacity change (DeltaCp), of -4.14+/-0.8 kJ.mol-1.K-1, was demonstrated to dominate the thermodynamics of thrombin-GC complex-formation. Finally it was demonstrated that GC binding to thrombin can allosterically decrease the enzyme affinity for hirudin via a simultaneous decrease in association rate and increase in the dissociation velocity of the enzyme-inhibitor adduct. Together these observations indicate the GC binding to the heparin-binding domain of thrombin is largely driven by a hydrophobic effect and that such interaction can protect the enzyme from inhibition by the heparin-anti-thrombin III complex.
采用固相分析法研究了凝血酶与血小板糖钙蛋白(GC)(膜糖蛋白Ib的140 kDa胞外片段)的相互作用。通过检测发色底物的水解来测定结合在GC包被的聚苯乙烯孔上的凝血酶。特异性结合GC凝血酶结合位点的单克隆抗体LJ-Ib10能够将凝血酶从固定化的GC上置换下来,而与GC的血管性血友病因子结合结构域相互作用的单克隆抗体LJ-Ib1则不影响凝血酶与GC的结合。使用溶液中的GC或与凝血酶肝素结合位点结合的配体(如肝素和凝血酶原片段2)也观察到了对凝血酶与固定化GC结合的竞争性抑制。此外,功能实验表明,GC与凝血酶的结合也与肝素竞争抗凝血酶III-肝素复合物对凝血酶的灭活作用。还研究了凝血酶-GC相互作用在4-37℃范围内随温度的变化。结果表明,-4.14±0.8 kJ·mol-1·K-1的大的负热容变化(ΔCp)主导了凝血酶-GC复合物形成的热力学过程。最后证明,GC与凝血酶的结合可通过同时降低酶-抑制剂加合物的缔合速率和增加解离速度,变构降低酶对水蛭素的亲和力。这些观察结果共同表明,GC与凝血酶肝素结合结构域的结合在很大程度上是由疏水作用驱动的,并且这种相互作用可以保护酶免受肝素-抗凝血酶III复合物的抑制。