Aspirin inhibits surface glycoprotein IIb/IIIa, P-selectin, CD63, and CD107a receptor expression on human platelets.

Platelet inhibition after aspirin therapy reduces the risk for the development of acute coronary syndromes. However, the mechanism by which aspirin affect platelets other than by prostaglandin blockade is unclear. We sought to determine the in vitro effects of aspirin on the surface expression of nine platelet receptors using whole blood flow cytometry. Blood from 24 healthy volunteers was incubated for 30 min with 1.8 and 7.2 mg/l phosphate-buffered saline-diluted acetylsalicylic acid in the presence or absence of apyrase. Platelet serotonin release, and the surface expression of platelet receptors with or without apyrase were determined using the following monoclonal antibodies: anit-CD41 [glycoprotein (GP)IIb/IIIa], CD42b (GPIb), CD62p (P-selectin), CD51/CD61 (vitronectin receptor), CD31 [platelet/endothelial cellular adhesion molecule-1 (PECAM-1)], CD107a [lysosomal associated membrane protein (LAMP)-1], CD107b (LAMP-2), CD63 (LIMP or LAMP-3), and CD151 (PETA-3). Samples were then immediately fixed with 2% paraformaldehyde, and run on the flow cytometer within 48 h. Aspirin does not affect serotonin release from human platelets. Dose-dependent inhibition of GPIIb/IIIa, P-selectin, CD63, and CD107a receptor expression was observed in the aspirin-treated whole-blood samples. Apyrase potentiates the effects of aspirin, and independently inhibits PECAM-1. In addition to the known effect of irreversibly inhibiting platelet cyclooxygenase-1, thereby blocking thromboxane A(2) synthesis, it appears that aspirin exhibits direct effects on selective major platelet receptors.

Effect of a single dose aspirin on platelets in humans with multiple risk factors for coronary artery disease.

We sought to assess how one tablet of non-enteric coated aspirin (325 mg) affects human platelets in subjects with risk factors for coronary artery disease. Data from 63 individuals with multiple cardiac risk factors were analyzed. Platelets were assessed twice at baseline (pre-aspirin), and after 3-4 h (post-aspirin). We employed 5 microM epinephrine-induced conventional aggregometry, closure time with epinephrine/collagen cartridge by PFA-100(R) (Dade-Behring), and aspirin response units (ARU) stimulated by propyl gallat with Ultegra (Accumetrics, San Diego, CA, USA) for measuring platelet function. In addition, the expression of platelet receptors was determined by using the following monoclonal antibodies: anti-CD31, CD41, CD42b, CD51/CD61, CD62p, CD63, CD107a, and CD151. Platelet-leukocyte formation was detected utilizing dual antibodies for a pan-platelet marker CD151, and CD14, a monocyte/macrophage marker. PAC-1 was used to measure fibrinogen-platelet binding. One pill of aspirin significantly decreased platelet-rich plasma (PRP) aggregation (74.18+/-16.75% vs. 24.92+/-8.64%; p<0.0001) and resulted in reduction of the aspirin response units (ARU) (662.24+/-65.65 vs. 451.05+/-69.31; p<0.0001). There was also prolongation of the closure time (194.4+/-25.3 vs. 258.63+/-55.61 s; p<0.0001). High correlation (r(2)=0.73-0.86) between platelet analyzer readings and aggregation was observed. One tablet of aspirin moderately inhibited expression of most surface platelet receptors measured, and such inhibition reached significance (p<0.05) for PAC-1, CD31, CD41, CD42, CD62p, and CD151. We conclude that a single dose of aspirin affects major platelet receptors, presumably directly or indirectly through the inhibition of prostanoids via platelet cyclooxygenase-1 blockade. The Ultegra Analyzer with a novel cartridge seems to be reliable in reflecting aspirins' effects on platelets and could be used in the future in clinical practice for monitoring aspirin therapy.

Failure of platelet parameters and biomarkers to correlate platelet function to severity and etiology of heart failure in patients enrolled in the EPCOT trial. With special reference to the Hemodyne hemostatic analyzer. Whole Blood Impedance Aggregometry for the Assessment of Platelet Function in Patients with Congestive Heart Failure.

Data from small studies have suggested the presence of platelet abnormalities in patients with congestive heart failure (CHF). We sought to characterize the diagnostic utility of different platelet parameters and platelet-endothelial biomarkers in a random outpatient CHF population investigated in the EPCOT ('Whole Blood Impedance Aggregometry for the Assessment of Platelet Function in Patients with Congestive Heart Failure') Trial. Blood samples were obtained for measurement of platelet contractile force (PCF), whole blood aggregation, shear-induced closure time, expression of glycoprotein (GP) IIb/IIIa, and P-selectin in 100 consecutive patients with CHF. Substantial interindividual variability of platelet characteristics exists in patients with CHF. There were no statistically significant differences when patients were grouped according to incidence of vascular events, emergency revascularization needs, survival, or etiology of heart failure. Aspirin use did not affect instrument readings either. PCF correlates very poorly with whole blood aggregometry (r(2) = 0.023), closure time (r(2) = 0.028), platelet GP IIb/IIIa (r(2) = 0.0028), and P-selectin (r(2) = 0.002) expression. Furthermore, there was no correlation with brain natriuretic peptide concentrations, a marker of severity and prognosis in heart failure reflecting the neurohumoral status. Patients with heart failure enrolled in the EPCOT Trial exhibited a marginal, sometimes oppositely directed change in platelet function, challenging the diagnostic utility of these platelet parameters and biomarkers to serve as useful tools for the identification of platelet abnormalities, for predicting clinical outcomes, or for monitoring antiplatelet strategies in this population. The usefulness of these measurements for assessing platelets in the different clinical settings remains to be explored. Taken together, opposite to our expectations, major clinical characteristics of heart failure did not correlate well with the platelet characteristics investigated in this study.

Effects of in vitro exposure of alcohol on surface receptor expression of human platelets.

Platelet inhibition after moderate alcohol consumption in patients with ischaemic heart disease may contribute to reducing the risk for developing acute coronary syndromes. However, the mechanism by which ethanol affects platelets is not clarified. We sought to determine the in vitro effects of alcohol on the surface expression of human platelet receptors using whole blood flow cytometry. Blood samples from 10 healthy volunteers were incubated for 30 min with 25 and 50 mmol l(-1) of phosphate buffered saline diluted grain ethanol, concentrations often used in in vitro studies. The surface expression of platelet receptors was determined by flow cytometry after fixation with 2% paraformaldehyde using the following monoclonal antibodies: CD 41 (GP IIb/IIIa), CD 42b (GP Ib), CD 62p (P-selectin), CD 51/CD 61 (vitronectin receptor), CD 31 (PECAM-1), CD 107a (LAMP-1), CD 107b (LAMP-2), CD 63 (LIMP, LAMP-3) and CD 151 (PETA-3). Dose-dependent inhibition of GP IIb/IIIa, P-selectin, CD 63 and CD 107a receptor expression was observed in the ethanol-treated whole blood samples. This study for the first time establishes a direct effect of ethanol on selective major platelet receptors. Beneficial cardiovascular properties of moderate alcohol consumption may be explained by ethanol's antiplatelet action.