A family of arginal thrombin inhibitors related to efegatran

Three new tripeptide arginal thrombin inhibitors were shown to have potent anticoagulant and antithrombotic activity: D-MePhg-Pro-Arg-H (LY287045), D-1-Tiq-Pro-Arg-H (LY294291), and D-MePhe-Pro-Arg-H (Efegatran). Efegatran and the related arginals differ mechanistically from old and from new anticoagulant agents. As illustrated with x-ray diffraction analysis of crystals of the LY294291 complex with human thrombin, the family of arginals binds thrombin with the P3, P2, and P1 residues interacting with the putative S3, S2, and S1 fibrinogen-binding sites. A hemi-acetal bond at Ser 195 was shown to contribute to the tight-binding reversible competitive thrombin inhibition properties observed with the arginal family. Tight-binding Kass values from thrombin inhibition studies correlated with thrombin clottin inhibition potency. The thrombin time (TT) assay was prolonged twofold with 33 nM Efegatran, which demonstrated an apparent Kass value of 0.8 x 10(8) L/mol (for comparison, 17 nM hirudin was required to prolong the TT assay two-fold). There are empirical anticoagulant selectivity differences between Efegatran and hirudin, manifested by large activated partial thromboplastin time (aPTT)/TT effect ratios (30 to 55) found with the arginals, as compared to the small aPTT/TT effect ratio (2 to 3) found with hirudin. The underlying anticoagulant mechanism differences between the arginals and hirudin appear to be confined to the aPTT pathway and, therefore, might involve different effects toward thrombin feedback activation of factor VIII. The arginals did not substantially inhibit other coagulation factor serine proteases. Antithrombotic effects of Efegatran and the arginal family occur at low infusion doses in dogs and appear to correlate with effects on TT without requiring perturbation of the aPTT. Selectivity properties regarding the fibrinolytic enzymes were shown to be important for successful use of the arginals in vivo as adjunctive agents during tissue plasminogen activator (t-PA) thrombolysis. The data suggest that LY287045, LY294291, and Efegatran should be expected to be useful as antithrombotic adjuncts to thrombolytic therapy with t-PA, urokinase, or streptokinase and should be expected to spare endogenous fibrinolysis. Efegatran has been evaluated in phase I clinical studies and is currently under clinical investigation in phase II protocols as a new cardiovascular anticoagulant.

Pharmacological assessment of the antithrombotic activity of the peptide thrombin inhibitor, D-methyl-phenylalanyl-prolyl-arginal (GYKI-14766), in a canine model of coronary artery thrombosis

The antithrombotic activity of the tripeptide thrombin inhibitor, D-methyl-phenylalanyl-prolyl-arginal (GYKI-14766), was compared to heparin in a model of canine coronary artery thrombosis. Thrombogenesis was initiated by electrolytic injury of the intimal surface of the left circumflex coronary artery. Drug administration was started 15 min before initiation of intimal injury. Clotting times and ex vivo platelet aggregation were determined on citrated blood samples. Gingival template bleeding times were determined. Clotting times (thrombin time; activated partial thromboplastin time, APTT; prothrombin time, PT) increased in a dose-dependent manner with both anticoagulants. The two anticoagulants selectively inhibited thrombin-induced platelet aggregation. GYKI-14766 and heparin were found to delay thrombosis significantly when compared to vehicle-treated animals; minimum effective antithrombotic doses were 0.25 mg/kg/h and 80 U/kg + 30 U/kg/h, respectively. GYKI-14766 (0.25 mg/kg/h) had no effect on template bleeding time, APTT or PT. Heparin (80 U/kg + 30 U/kg/h), however, was associated with a 2.5- to 3.0-min increase in template bleeding time, a 1.8-fold and 1.7-fold increase in APTT and PT, respectively. Antithrombotic efficacy was achieved at doses of GYKI-14766 that did not affect APTT, PT or template bleeding time, whereas antithrombotic efficacy observed with heparin was associated with significant increases in APTT, PT and template bleeding time. These data demonstrate that the tripeptide thrombin inhibitor, GYKI-14766, could potentially prove to be a safer and more effective antithrombotic agent than heparin.

5-Hydroxytryptamine3 receptors mediate tachycardia in conscious instrumented dogs

Intravenously administered 5-HT and the 5-HT3 selective agonist, 2CH3-5-HT, and the 5-HT2 selective agonist, alpha-CH3-5-HT, transiently increased heart rate in conscious, instrumented dogs. 5-HT, alpha-CH3-5-HT and 2CH3-5-HT increased systolic blood pressure in conscious dogs. The increase in blood pressure produced by alpha-CH3-5-HT was blocked by the 5-HT2 selective antagonist, LY53857, supporting a role for vascular 5-HT2 receptors in the pressor response to these amines. In contrast, LY53857 did not antagonize tachycardia produced by 2CH3-5-HT. Furthermore, propranolol also did not block 2CH3-5-HT-induced tachycardia, indicating that an indirect neuronal effect to release norepinephrine cannot explain the increase in heart rate to 2CH3-5-HT. Tachycardia to 2CH3-5-HT (as well as to isoproterenol) was modestly inhibited, but never abolished by interruption of the autonomic nervous system with atropine or hexamethonium. 5-HT3 receptor antagonists, zacopride, ICS 205-930 and GR38032F, dose-dependently blocked the tachycardia and pressor response to 2CH3-5-HT. These data establish the presence of a 5-HT3 receptor mediating a direct positive chronotropic effect of 5-HT in conscious dogs, an effect that depends, only minimally, on the presence of an intact autonomic nervous system.