Karthi Sreedevi, Sukumari-Ramesh Sangeetha, Geetha Mandagini, Appukuttan Padinjaradath Sankunni
Department of Biochemistry, Sree Chitra Tirunal Institute for Medical Sciences and Technology, Thiruvananthapuram, Kerala 695011, India.
Exp Ther Med. 2022 Jan;23(1):82. doi: 10.3892/etm.2021.11005. Epub 2021 Nov 25.
Human natural anti-α-galactoside (anti-Gal) and anti-β-glucoside (ABG) antibodies were previously reported to recognize the serine- and threonine-rich peptide sequences (STPS) of albumin-associated O-glycoproteins (AOP1 and AOP2) as surrogate antigens, forming anti-Gal/ABG-AOP1/AOP2-albumin triplet immune complexes in plasma. Since antibodies in these triplets still possessed unoccupied binding sites, the presence of triplets on human platelets that abound in surface O-glycoproteins was examined. Upon treatment with α-galactosides and β-glucosides, normal platelets freshly isolated from young healthy individuals released triplets identical with plasma triplets according to ELISA results. The resulting denuded platelets, unless pre-treated with fibrinogen or the O-glycan-binding lectin jacalin, recaptured these sugar-extracted triplets in the absence of antibody-specific sugars, suggesting that the triplet antibodies recognized the STPS of O-glycosylated receptors on platelets. Molecular weight of the dominant jacalin-binding subunit on triplet-free platelet membrane was 116 kDa, close to the ~120 kDa reported for the IIb subunit of the most abundant fibrinogen-binding platelet O-glycoprotein, GPIIb/IIIa. Denuded, but not native, platelets underwent slow spontaneous aggregation and rapid ADP-mediated GPIIb/IIIa-dependent aggregation according to spectrophotometric assay. Pre-treatment of denuded platelets with jacalin significantly reduced their ADP-mediated aggregation. Amyloid β (Aβ-42 monomer) was reported to bind triplet O-glycoproteins through their STPS but not to albumin or the antibodies. This peptide bound to the triplets on normal platelets and to surface membrane O-glycoproteins on denuded platelets, suggesting that the surface O-glycoproteins on the normal platelets were engaged and masked by the triplets. The ABG-specific sugar glucose denuded the platelets at concentrations typically reached in diabetic sera, since anti-Gal specific or ABG-specific sugar released the triplets of both the antibodies from the platelets. In conclusion, the present study offered rationale for the presence of anti-Gal/ABG-O-glycoprotein-albumin triplets on normal platelets, for the role of triplets in platelet physiology amidst circulating platelet-activating factors such as ADP, and for platelet vulnerability during diabetes.
先前有报道称,人类天然抗α-半乳糖苷(抗Gal)和抗β-葡萄糖苷(ABG)抗体可识别与白蛋白相关的O-糖蛋白(AOP1和AOP2)富含丝氨酸和苏氨酸的肽序列(STPS)作为替代抗原,在血浆中形成抗Gal/ABG-AOP1/AOP2-白蛋白三联体免疫复合物。由于这些三联体中的抗体仍具有未占据的结合位点,因此研究了在表面O-糖蛋白丰富的人类血小板上是否存在三联体。根据ELISA结果,用α-半乳糖苷和β-葡萄糖苷处理后,从年轻健康个体新鲜分离的正常血小板释放出与血浆三联体相同的三联体。产生的裸血小板,除非用纤维蛋白原或O-聚糖结合凝集素红豆蔻预处理,否则在没有抗体特异性糖的情况下会重新捕获这些糖提取的三联体,这表明三联体抗体识别血小板上O-糖基化受体的STPS。无三联体血小板膜上主要的红豆蔻结合亚基的分子量为116 kDa,接近报道的最丰富的纤维蛋白原结合血小板O-糖蛋白GPIIb/IIIa的IIb亚基的~120 kDa。根据分光光度法测定,裸血小板而非天然血小板会发生缓慢的自发聚集和快速的ADP介导的GPIIb/IIIa依赖性聚集。用红豆蔻预处理裸血小板可显著降低其ADP介导的聚集。据报道,淀粉样β(Aβ-42单体)通过其STPS与三联体O-糖蛋白结合,但不与白蛋白或抗体结合。该肽与正常血小板上的三联体以及裸血小板表面膜O-糖蛋白结合,这表明正常血小板上的表面O-糖蛋白被三联体占据并掩盖。ABG特异性糖葡萄糖在糖尿病血清中通常达到的浓度下使血小板裸露,因为抗Gal特异性或ABG特异性糖从血小板中释放出两种抗体的三联体。总之,本研究为正常血小板上存在抗Gal/ABG-O-糖蛋白-白蛋白三联体、三联体在诸如ADP等循环血小板激活因子存在下在血小板生理学中的作用以及糖尿病期间血小板的易损性提供了理论依据。
