Fig. 4.
Analysis of agonist induced activation of IIbβ3 on β3-transduced thrombasthenic megakaryocytes.
Cultured cells were harvested for physiologic studies of αIIbβ3 function at 9 days after transduction with −889PlA2β3. Untransduced and β3-transduced cells (1.5 × 106/mL) were incubated with PE-GPIbα and FITC-PAC1 antibodies in modified Tyrode buffer containing TRAP, ADP, and epinephrine agonists. Binding of the αIIbβ3 activation-sensitive antibody, FITC-PAC1, was monitored in the FL1 channel of the flow cytometer on the gated subset of megakaryocytes that expressed GPIbα (FL2). In each panel, FITC-PAC1 binding was measured in the absence (shaded histograms) and presence (unshaded histograms) of an Arg-Gly-Asp–containing peptide (GRGDW) that blocks FITC-PAC1 binding specifically to activated αIIbβ3. The β3-transduced megakaryocytes from patients R.S. and E.A. bound FITC-PAC1 at a fluorescence intensity peak value of 13 and 7, respectively, which is on average 10-fold higher than the FITC-PAC1 peak value of 1 for untransduced megakaryocytes from R.S. and E.A. (shaded). The β3-transduced samples from R.S. and E.A. bound FITC-PAC1 at a fluorescence intensity peak value that was approximately 9% of the peak value of 110 for normal nonthrombasthenic megakaryocytes (shaded top). In the presence of the GRGDW peptide, FITC-PAC1 did not bind to megakaryocytes from β3-transduced, untransduced, or normal samples as demonstrated with fluorescence intensity peak value of 1 for each sample (unshaded) and β3-transduced megakaryocytes from R.S. that had a peak value of 2.