Miura S, Li C Q, Cao Z, Wang H, Wardell M R, Sadler J E
Howard Hughes Medical Institute, Washington University School of Medicine, St. Louis, Missouri 63110, USA.
J Biol Chem. 2000 Mar 17;275(11):7539-46. doi: 10.1074/jbc.275.11.7539.
We investigated the crucial hemostatic interaction between von Willebrand factor (VWF) and platelet glycoprotein (GP) Ibalpha. Recombinant VWF A1 domain (residues Glu(497)-Pro(705) of VWF) bound stoichiometrically to a GPIbalpha-calmodulin fusion protein (residues His(1)-Val(289) of GPIbalpha; GPIbalpha-CaM) immobilized on W-7-agarose with a K(d) of 3.3 microM. The variant VWF A1(R545A) bound to GPIbalpha-CaM 20-fold more tightly, mainly because the association rate constant k(on) increased from 1,100 to 8,800 M(-1) s(-1). The GPIbalpha mutations G233V and M239V cause platelet-type pseudo-von Willebrand disease, and VWF A1 bound to GPIbalpha(G233V)-CaM and GPIbalpha(M239V)-CaM with a K(d) of 1.0 and 0.63 microM, respectively. The increased affinity of VWF A1 for GPIbalpha(M239V)-CaM was explained by an increase in k(on) to 4,500 M(-1) s(-1). GPIbalpha-CaM bound with similar affinity to recombinant VWF A1, to multimeric plasma VWF, and to a fragment of dispase-digested plasma VWF (residues Leu(480)/Val(481)-Gly(718)). VWF A1 and A1(R545A) bound to platelets with affinities and rate constants similar to those for binding to GPIbalpha-CaM, and botrocetin had the expected positively cooperative effect on the binding of VWF A1 to GPIbalpha-CaM. Therefore, allosteric regulation by botrocetin of VWF A1 binding to GPIbalpha, and the increased binding affinity caused by mutations in VWF or GPIbalpha, are reproduced by isolated structural domains. The substantial increase in k(on) caused by mutations in either A1 or GPIbalpha suggests that productive interaction requires rate-limiting conformational changes in both binding sites. The exceptionally slow k(on) and k(off) provide important new constraints on models for rapid platelet tethering at high wall shear rates.
我们研究了血管性血友病因子(VWF)与血小板糖蛋白(GP)Ibalpha之间关键的止血相互作用。重组VWF A1结构域(VWF的Glu(497)-Pro(705)残基)以化学计量比与固定在W-7琼脂糖上的GPIbalpha-钙调蛋白融合蛋白(GPIbalpha的His(1)-Val(289)残基;GPIbalpha-CaM)结合,解离常数K(d)为3.3 microM。变体VWF A1(R545A)与GPIbalpha-CaM的结合亲和力高20倍,主要是因为缔合速率常数k(on)从1100增加到8800 M(-1) s(-1)。GPIbalpha突变G233V和M239V导致血小板型假性血管性血友病,VWF A1与GPIbalpha(G233V)-CaM和GPIbalpha(M239V)-CaM结合,K(d)分别为1.0和0.63 microM。VWF A1对GPIbalpha(M239V)-CaM亲和力的增加是由于k(on)增加到4500 M(-1) s(-1)。GPIbalpha-CaM以相似的亲和力与重组VWF A1、多聚体血浆VWF以及经分散酶消化的血浆VWF片段(Leu(480)/Val(481)-Gly(718)残基)结合。VWF A1和A1(R545A)与血小板的结合亲和力和速率常数与它们与GPIbalpha-CaM的结合相似,并且蛇毒因子对VWF A1与GPIbalpha-CaM的结合具有预期的正协同效应。因此,蛇毒因子对VWF A1与GPIbalpha结合的变构调节以及VWF或GPIbalpha突变引起的结合亲和力增加,在分离的结构域中得以重现。A1或GPIbalpha突变导致的k(on)大幅增加表明,有效的相互作用需要两个结合位点都发生限速构象变化。异常缓慢的k(on)和k(off)为高壁剪切速率下血小板快速 tethering的模型提供了重要的新限制条件。 (注:原文中“tethering”可能是特定医学术语,这里直接保留英文,因为不清楚准确的中文表述)
