在流动条件下,血小板与二聚体β-糖蛋白I的黏附至少由两种受体介导:糖蛋白Ibalpha和载脂蛋白E受体2。
Platelet adhesion to dimeric beta-glycoprotein I under conditions of flow is mediated by at least two receptors: glycoprotein Ibalpha and apolipoprotein E receptor 2'.
作者信息
Pennings M T T, Derksen R H W M, van Lummel M, Adelmeijer J, VanHoorelbeke K, Urbanus R T, Lisman T, de Groot P G
机构信息
Laboratory of Clinical Chemistry and Haematology, University Medical Centre Utrecht, Utrecht, the Netherlands.
出版信息
J Thromb Haemost. 2007 Feb;5(2):369-77. doi: 10.1111/j.1538-7836.2007.02310.x. Epub 2006 Nov 10.
BACKGROUND
The major antigen implicated in the antiphospholipid syndrome is beta2-glycoprotein I (beta2GPI). Dimerized beta2GPI binds to apolipoprotein E receptor 2' (apoER2') on platelets and increases platelet adhesion to collagen under conditions of flow.
AIM
To investigate whether the interaction between dimerized beta2GPI and platelets is sufficiently strong to resist shear stresses.
METHODS
We studied the interaction of platelets with immobilized dimerized beta2GPI under conditions of flow, and further analyzed the interaction using surface plasmon resonance and solid phase immunoassays.
RESULTS
We found that dimerized beta2GPI supports platelet adhesion and aggregate formation under venous flow conditions. Adhesion of platelets to dimerized beta2GPI was completely inhibited by the addition of soluble forms of both apoER2' and GPIbalpha, and the addition of receptor-associated protein and the removal of GPIbalpha from the platelet surface. GPIbalpha co-precipitated with apoER2', suggesting the presence of complexes between GPIbalpha and apoER2' on platelet membranes. The interaction between GPIbalpha and dimeric beta2GPI was of intermediate affinity (Kd = 180 nM) and Zn2+, but not Ca2+-dependent. Deletion of domain V from dimeric beta2GPI strongly reduced its binding to both GPIbalpha and apoER2'. Antibodies that inhibit the binding of thrombin to GPIbalpha inhibited platelet adhesion to dimeric beta2GPI completely, while antibodies blocking the binding of von Willebrand factor to GPIbalpha had no effect. Dimeric beta2GPI showed reduced binding to low-sulfated GPIbalpha compared to the fully sulfated form.
CONCLUSION
We show that platelets adhere to dimeric beta2GPI under both arterial and venous shear stresses. Platelets adhere via two receptors: GPIbalpha and apoER2'. These receptors are present in a complex on the platelet surface.
背景
抗磷脂综合征中涉及的主要抗原是β2糖蛋白I(β2GPI)。二聚化的β2GPI与血小板上的载脂蛋白E受体2'(apoER2')结合,并在流动条件下增加血小板与胶原蛋白的粘附。
目的
研究二聚化的β2GPI与血小板之间的相互作用是否足够强以抵抗剪切应力。
方法
我们研究了在流动条件下血小板与固定化二聚化β2GPI的相互作用,并使用表面等离子体共振和固相免疫测定进一步分析了这种相互作用。
结果
我们发现二聚化的β2GPI在静脉血流条件下支持血小板粘附和聚集体形成。添加apoER2'和GPIbalpha的可溶性形式、添加受体相关蛋白以及从血小板表面去除GPIbalpha可完全抑制血小板与二聚化β2GPI的粘附。GPIbalpha与apoER2'共沉淀,表明血小板膜上存在GPIbalpha与apoER2'之间的复合物。GPIbalpha与二聚体β2GPI之间的相互作用具有中等亲和力(Kd = 180 nM),且依赖于Zn2 +而非Ca2 +。从二聚体β2GPI中缺失结构域V会强烈降低其与GPIbalpha和apoER2'的结合。抑制凝血酶与GPIbalpha结合的抗体完全抑制血小板与二聚化β2GPI的粘附,而阻断血管性血友病因子与GPIbalpha结合的抗体则没有作用。与完全硫酸化形式相比,二聚体β2GPI与低硫酸化GPIbalpha的结合减少。
结论
我们表明,在动脉和静脉剪切应力下血小板均粘附于二聚化β2GPI。血小板通过两种受体粘附:GPIbalpha和apoER2'。这些受体以复合物形式存在于血小板表面。
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