Objective and design: ABT-299 is a prodrug that is converted by serum esterase to a potent platelet activating factor (PAF) antagonist (A-85783). In order to evaluate the pharmacological activity of this antagonist in man the effect of ABT-299 given to healthy volunteers on ex vivo PAF-induced beta-thromboglobulin (beta-TG) release in blood was assessed.
Subjects: 37 healthy male volunteers, age 18 to 40 (mean age of 23.6 years) and free of medication, participated in the study.
Treatment: Subjects were administered intravenously 0.8 mg, 2 mg, or 70 mg doses of ABT-299 (6-7 subjects per group) or placebo (9 subjects, pooled).
Methods: Peripheral blood taken over 12 h after dosing was used for ex vivo beta-TG release and, in the case of the 70 mg dose, measurement of plasma drug concentration. Data were compared by Student's t-test.
Results: All three doses produced highly significant inhibition (p < 0.005 compared to predose values) of PAF-induced beta-TG release (units/ml plasma +/- SEM) 12 h after drug administration (54 +/- 14 vs. 405 +/- 51, n = 8; 79 +/- 23 vs. 480 +/- 127, n = 7; 21 +/- 10 vs. 327 +/- 72, n = 6, respectively) whereas there was no significant difference in beta-TG release in the placebo group (449 +/- 90 vs. 307 +/- 49, n = 9). Inhibition was associated with the rapid appearance in plasma of A-85783 and the pyridine N-oxide metabolite of A-85783. Within 2 h, the plasma concentration of the metabolite exceeded that of the parent drug. Both the parent drug and the metabolite exhibited potent in vitro inhibition of PAF-induced beta-TG release (A2 values of 4 and 1 nM respectively).
Conclusions: These studies are the first to illustrate the utility of the beta-TG release assay for assessing ex vivo activity of PAF antagonists. These studies also demonstrate that the administration of ABT-299 to man results in potent, long lasting inhibition of PAF-mediated platelet activation, due in part to the pyridine-N-oxide metabolite, and support the potential therapeutic utility of this prodrug in treating PAF-mediated diseases.