A flow cytometric analysis of human platelet surface antigens was carried out using a panel of monoclonal antibody reagents. The reagents used were specific either for the GPIb or the GP IIb/IIIa complex, surface immunoglobulin, or von Willebrand factor (vWf). Indirect surface immunophenotypes were determined using an EPICS V flow cytometer and the monoclonal antibodies 6D1, 10E5, Plt-1, UR1663, anti-IgG, and anti-vWf. Platelets were obtained from normal individuals or patients with either Bernard-Soulier syndrome (BSS) or Glanzmann's thrombasthenia (GT). Normal platelets were positive for 10E5, 6D1, Plt-1, and UR1663 and showed negligible activity for anti-IgG and anti-vWf. Platelets from individuals with BSS showed a ~ Normal platelet function depends upon the presence of a complex array of surface glycoprotein receptors and their interactions with vessel wall adhesive proteins. Platelet receptor-ligand interactions have been described for a variety of proteins including thrombin, von Willebrand factor (vWf), fibrinogen, thrombospondin, fibronectin, and agonists such as ADP, epinephrine, and collagen (25). The majority of these studies have been performed using radiolabeled ligands. The recent advent of hybridoma monoclonal antibody technology in conjunction with flow cytometry has resulted in the increased awareness of phenotypic complexity of leukocyte and lymphocyte subsets (13). Although there are few flow cytometric reports on platelets (1,10,17), these studies indicate that additional investigation might yield useful information. The application of flow cytometry (FCM) to the analysis of platelets should result in the rapid acquisition of single-cell multiparameter correlated data with high statistical precision. In our initial attempt to apply flow cytometry to platelets, a small panel of available platelet-specific monoclonal antibodies (McAb) was used to define conditions necessary for the flow cytometric analysis of platelet surface antigens. MATERIALS AND METHODS Platelet Isolation and Fluorescent StainingPeripheral venous blood (9 ml) was anticoagulated with 1 ml sodium citrate (13 mM) and EDTA (10 mM). marked reduction in 6D1, while the platelets of a patient with GT showed a marked reduction in binding of 10E5, Plt-1, and UR1663. Differences between histograms for normal platelets and for platelets from individuals with BSS or GT were evaluated using the Kolmogorov-Smirnov test. Compared to normal platelets, the BSS and GT platelets contain at least 35-fold less of the GPIb and G P IIb/IIIa complex respectively. Flow cytometry is a useful and precise method for the study of normal and abnormal surface platelet phenotypes.
Platelet stimulation results in the release of endogenous platelet fibrinogen which binds to the platelet surface. Previous studies have demonstrated that plasma fibrinogen bound to activated platelets becomes inaccessible to a variety of probes. We have studied endogenous platelet fibrinogen binding to activated platelets by employing an immunopurified polyclonal anti-fibrinogen antibody and F26, a monoclonal anti-fibrinogen antibody, which recognizes fibrinogen only when it is bound to a surface. Employing the Ig or F(ab')2 of the poly- or monoclonal antibody we found a marked decrease of fibrinogen accessibility 30-60 min after platelet activation. In contrast, platelet-bound fibrinogen remains accessible to the Fab fragment of F26 at a constant level for 30 min and increases at 60 min. The reduction of the polyclonal Fab fragment binding at 30 and 60 min is similar to the F26 Ig. These results indicate that the decreased accessibility of bound fibrinogen is related to two mechanisms; (1) that the access route to fibrinogen in size selective for the antibody probes and only small antibody probes, e.g. Fab fragments, can gain access to fibrinogen and (2) fibrinogen undergoes a conformational change(s) after binding which exposes at least one neo-epitope in the D domain of fibrinogen and which may decrease or mask the reactivity of other fibrinogen domains. Only the F26 Fab probe has full access to and identifies fibrinogen present on the platelet surface 60 min after stimulation.
An interlaboratory flow cytometric comparison of several commercially available human lymphocyte subset reagents was undertaken in three different laboratories. Fresh Hypaque-Ficoll purified blood mononuclear cells were stained at 4 degrees C or 22 degrees C. Direct or indirect surface immunofluorescence was carried out at all sites using an EPICS V flow cytometer. Fullbright, 10-micron fluorescent polystyrene microspheres were used for optical alignment and standardization. A log integral fluorescent histogram gated on forward and right angle scatter was collected on 1-2 X 10(4) cells for each reagent and the proportion, of positive cell determined for each reagent. With the exception of one reagent, anti-B1, which showed an approximately twofold variation, all three laboratories showed remarkable agreement. Thus there was no significant difference noted for the following reagents: OKT4, CCT4, Leu 3a, Leu 2a, OKT8, or CCT8. We attribute these findings to the availability of quality reagents, precision instrumentation, and a standard lymphocyte preparation.
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