THE NEWLY SYNTHESIZED COMPOUND E-5510 IS A HIGHLY POTENT ANTIPLATELET AGENT

Abstract

Our newly synthesized compound, 4-cyano-5,5-bis(methoxy-phenyl)-4-pentenoic acid (E-5510) has highly potent antiplatelet activity. In this paper, the effects of E-5510 on platelet functions in vitro and ex vivo in human and in various experimental animals are examined.E-5510 inhibited human platelet aggregation induced by collagen, arachidonate, ADP, PAF and epinephrine (IC50: 1.5, 0.7, 2.0, 1.6 and 1.1 uM, respectively). Thrombin-induced platelet aggregation, which was not inhibited by aspirin and U-53059 (lC50s: 100 uM), was also inhibited by this compound (IC50: 21uM). The IC50 of E-5510 in thrombin-induced ATP secretion fromhuman platelets was only 2 uM. Platelet adhesion to a collagen coated disk, whichwas measured by the method of Buchanan et al (Prost. Leuko. Med., 21, 157, 1986) was inhibited by E-5510 (IC50: 19.3 uM) butnot by aspirin and U-53059. In the PRP ofthe guinea pig, the beagle and the monkey, E-5510 inhibited collagen-induced platelet aggregation in vitro to the same degree as in human PRP(IC50: 1.2, 0.6 and 1.5 uM, respectively). After being administered orally to guinea pigs, E-5510 exhibited extremely potent ex vivo inhibitory effect in collagen-induced platelet aggregation with a very low ED50 of 0.05 mg/kg. In contrast, the ED50’s of ticlopidine, aspirin and U-53059 were 300 , 27.2 and 1.0 mg/kg, respectively. In beagles and monkeys E-5510 also showed ex vivo antiplatelet effects at 0.01 and 0.003 mg/kg, respectively. This effect continued for more than 8 hrs. and disappeared within 24 hrs. The antiplatelet effect in human PRP was highly correlated with that in PRP of experimental animals in which the ex vivo effects were confirmed at a very low dose. Thus, E-5510 will ensure to exert the antiplatelet effect after oral administration to human subjects.In summary, E-5510 is unique among the known antiplatelet agents since it has potent inhibitory effects on thrombin-induced platelet activation and platelet adhesion to collagen. It was also shown that this compound had an ex vivo antiplatelet effect at an extremely low ED50. Our results suggest that E-5510 will be a beneficial agent for antiplatelet therapy in humans.