1. The binding of fibrinogen to platelets in diabetes mellitus.
- Author
-
di Minno G, Cerbone AM, Iride C, and Mancini M
- Subjects
- Diabetic Retinopathy blood, Humans, Platelet Aggregation, Platelet Membrane Glycoproteins, Thromboxane B2 blood, Blood Platelets metabolism, Diabetes Mellitus, Type 1 blood, Fibrinogen metabolism, Receptors, Cell Surface metabolism
- Abstract
Platelets from diabetics are known to be more sensitive in vitro to a variety of aggregating agents, to produce more prostaglandin endoperoxides and thromboxane and to bind more 125I-fibrinogen than platelets from normal controls Fibrinogen binding to platelets is a pre-requisite for platelet aggregation. Previous studies suggested a role for prostaglandins and/or thromboxane A2 in the exposure of fibrinogen receptors on platelets. The present study compares fibrinogen receptors on platelets. The present study compares fibrinogen binding to hyperaggregable platelets from diabetic patients and to normal platelets when prostaglandin/thromboxane formation is suppressed by aspirin. It was found that pre-treatment with aspirin reduced collagen or thrombin-induced binding to platelets from non-retinopathic diabetics to the values seen in controls. By contrast, aspirin did not normalize binding to platelets obtained from retinopathic diabetics. The combination of aspirin with apyrase (an ADP scavenger) almost completely inhibited binding and aggregation of platelets from normal controls or non-retinopathic diabetics exposed to collagen or thrombin, whereas it only partially affected binding and aggregation of platelets from retinopathics. By using a monoclonal antibody (B59.2) to the platelet receptor for fibrinogen, we determined that this receptor was quantitatively and qualitatively the same on platelets from normal controls and diabetics. We conclude that increased fibrinogen binding and hyperaggregability of platelets from non-retinopathic diabetics is related to their capacity to form more prostaglandin endoperoxides/thromboxane than normal platelets. In contrast, hyperaggregability and increased binding of platelets from retinopathics appear at least partly related to a mechanism independent of ADP release and thromboxane synthesis.
- Published
- 1986