Winocour P D, Watala C, Perry D W, Kinlough-Rathbone R L
Department of Pathology, McMaster University, Hamilton, Ontario, Canada.
Thromb Haemost. 1992 Nov 10;68(5):577-82.
Platelets from diabetic subjects and animals are hypersensitive to agonists in vitro. Membrane fluidity modulates cell function and previously we observed reduced membrane fluidity in platelets from diabetic patients associated with hypersensitivity to thrombin. We previously reported that decreased fluidity of isolated platelet membranes from diabetic patients is associated with increased glycation of platelet membrane proteins, but not with any change in the cholesterol to phospholipid molar ratio. We have now examined in vitro whether incubation of platelet membranes in a high glucose medium causes sufficient glycation to reduce membrane fluidity. Incubation of platelet membranes from control subjects in a high glucose (16.1 mM) medium for 10 days at 37 degrees C led to an increase in the extent of glycation of membrane proteins and a decrease in membrane fluidity (indicated by an increase in steady state fluorescence polarization); most of the changes occurred within the first 3 days of incubation. Incubation of platelet membranes with 5.4 mM glucose had less effect. In contrast, incubation of platelet membranes with the same concentrations of 1-0-methylglucose did not cause a change in either the extent of glycation of proteins or membrane fluidity. We also determined if acetylation by aspirin or acetyl chloride of the sites available for glycation on platelet membrane proteins leads to a similar reduction in membrane fluidity. Pretreatment of platelet membranes with aspirin or acetyl chloride diminished the extent of glycation that occurred when platelet membranes were subsequently incubated with glucose, but membrane fluidity was reduced even in the absence of glucose; subsequent incubation with glucose caused no further reduction in membrane fluidity.(ABSTRACT TRUNCATED AT 250 WORDS)
糖尿病患者和动物的血小板在体外对激动剂高度敏感。膜流动性调节细胞功能,此前我们观察到糖尿病患者血小板的膜流动性降低,这与对凝血酶的超敏反应有关。我们之前报道,糖尿病患者分离的血小板膜流动性降低与血小板膜蛋白糖基化增加有关,但与胆固醇与磷脂摩尔比的任何变化无关。我们现在已经在体外研究了在高糖培养基中孵育血小板膜是否会导致足够的糖基化以降低膜流动性。将对照受试者的血小板膜在高糖(16.1 mM)培养基中于37℃孵育10天,导致膜蛋白糖基化程度增加,膜流动性降低(通过稳态荧光偏振增加表示);大多数变化发生在孵育的前3天内。用5.4 mM葡萄糖孵育血小板膜的影响较小。相比之下,用相同浓度的1-0-甲基葡萄糖孵育血小板膜不会导致蛋白质糖基化程度或膜流动性发生变化。我们还确定了阿司匹林或乙酰氯对血小板膜蛋白上可用于糖基化的位点进行乙酰化是否会导致类似的膜流动性降低。用阿司匹林或乙酰氯预处理血小板膜可减少随后用葡萄糖孵育血小板膜时发生的糖基化程度,但即使在没有葡萄糖的情况下膜流动性也会降低;随后用葡萄糖孵育不会导致膜流动性进一步降低。(摘要截断于250字)
