Inhibition of beta 2glycoprotein I binding to anionic phospholipids: a strategy for the development of antiphospholipid syndrome-specific drugs.

Drug design and discovery Pub Date : 1999-11-01
J D Kohles, M Petersheim, V A DeBari
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Abstract

The binding of beta 2glycoprotein I (beta 2GPI) to anionic phospholipids (PL) leads to the presentation of one or more epitopes recognized by autoantibodies from patients with antiphospholipid syndrome (APS). The inhibition of beta 2GPI binding to PL mixtures coated on polystyrene microtiter wells (MTW) and to large, multilamellar PL vesicles (LMV) was examined. Inhibitors included phosphorylated monosaccharide metabolites, myo-inositol monophosphate (IMP), hexaphosphate (IHP) and hexasulfate (IHS), pyrophosphate (PPi), methyl bisphosphonate (MBP) and phenyl phosphonate, and a series of carboxylic and aromatic sulfonic acids. Inhibitors were incubated with beta 2GPI at 37 degrees C for 2 hr either with dimyristoylphosphatidic acid, 80%/dimyristoylphosphatidyl choline, 20% (DMPA/DMPC) coated on MTW or in a suspension of LMV. Phospholipid-bound beta 2GPI to PA/PC on MTW was detected using an immunoassay based on rabbit anti-beta 2GPI; free beta 2GPI (not bound to LMV) was detected by fluorescence spectroscopy. Inhibition was studied over the range 0.01-9.0 mumoles/10(-4)L (0.1-90 mM). Inhibition at maximum concentration in the MTW system ranged from 0.1% (for ADP) to > 94% (for IHP). IHP also provided the greatest inhibition in the LMV system (76%) and was also effective in displacing beta 2GPI already bound to PL surfaces (approximately 50% displaced at 0.25 mM). These data suggest that a strategy for development of therapeutic agents for APS may be based on the use of small cyclic, organic oligoanions such as inositol derivatives to act as ligands for lysine residues at the PL binding site of beta 2GPI.

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抑制β 2糖蛋白I与阴离子磷脂的结合:开发抗磷脂综合征特异性药物的策略
β 2糖蛋白I (β 2GPI)与阴离子磷脂(PL)的结合导致抗磷脂综合征(APS)患者自身抗体识别的一个或多个表位的出现。研究了β - 2GPI对聚苯乙烯微滴孔(MTW)涂覆的PL混合物和大的多层PL囊泡(LMV)的抑制作用。抑制剂包括磷酸化的单糖代谢物、肌醇单磷酸(IMP)、六磷酸(IHP)和六硫酸(IHS)、焦磷酸(PPi)、二磷酸甲酯(MBP)和苯基膦酸,以及一系列羧酸和芳香族磺酸。抑制剂与β - 2GPI在37℃下孵育2小时,其中二肉豆烯酰磷脂酸,80%/二肉豆烯酰磷脂酰胆碱,20% (DMPA/DMPC)包被MTW或LMV悬浮液。采用兔抗- 2GPI免疫分析法检测MTW上磷脂结合的β 2GPI对PA/PC的影响;荧光光谱法检测游离β 2GPI(未与LMV结合)。在0.01 ~ 9.0 μ mol /10(-4)L (0.1 ~ 90 mM)范围内进行抑菌试验。MTW系统中最大浓度的抑制范围从0.1% (ADP)到> 94% (IHP)。IHP在LMV体系中也有最大的抑制作用(76%),并且在置换已经结合在PL表面的β 2GPI方面也很有效(在0.25 mM处置换了约50%)。这些数据表明,APS治疗剂的开发策略可能基于使用小环有机低阴离子(如肌醇衍生物)作为β 2GPI PL结合位点赖氨酸残基的配体。
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