Dynamic measurements of the platelet membrane glycoprotein IIb-IIIa receptor for fibrinogen by flow cytometry. I. Methodology, theory and results for two distinct activators

Abstract

Platelet aggregation, which occurs within seconds of activation, is generally considered to be mediated by fibrinogen binding to glycoprotein IIb-IIIa which becomes expressed as a fibrinogen receptor (FbR) on the activated platelet surface. This receptor expression has, however, only been measured to date at relatively long activation times (greater than 15 min). We have therefore developed a theoretical and experimental approach for determining FbR expression within seconds of platelet activation using flow cytometry. The fluorescently labeled IgM monoclonal antibody FITC-PAC1, was used to report on the GPIIb-IIIa receptor for Fb (FbR). Human citrated platelet-rich plasma (PRP; diluted 1:10) was incubated with adenosine diphosphate (ADP) or phorbol myristate acetate (PMA) for varying times (tau = 0-10 s, out to 60 min), followed by incubation with fluorescein isothiocyanate (FITC)-PAC1 antibody at saturating concentrations. The time course of FITC-PAC1 binding was then measured for these variously preactivated samples (different tau) from the mean platelet-bound fluorescence (Fl), determined for greater than or equal to 5 s of PAC1 addition by dilution quenching and determination of fluorescence intensity histograms with the FACSTAR or FACSCAN (Becton-Dickinson Canada, Mississauga, Ontario) flow cytometers. Both rapid, initial rate of increase in Fl (nu) (related to PAC1 on-rates) and maximal extent of increase (Flmax) were thus determined for different tau values. These measurements yield the rate of formation of FbR (k1), and both the rate (k2) and efficiency (alpha) of binding of PAC1 to FbR as a function of activator type and time of action. We have found that ADP appears to cause rapid, maximal expression of FbR within 1-3 s (k1 greater than 20 min-1), whereas PMA expresses FbR in a slow, biphasic manner (k1 - 0.01 and 0.2 min-1). However, k2 and alpha for maximal PMA activation are about two and three times greater, respectively, than for maximal ADP-activation. Moreover, k2 decreases with post ADP activation time. These differences are discussed in terms of altered FbR organization and accessibility. This kinetic approach can be widely used to analyze the dynamics and organization of molecules on cell surfaces by flow cytometry, including studies of size-dependent subpopulations (see Part II, Frojmovic, M., and T. Wong. 1991. Biophys. J. 59:828-837).