Ho-Sam Ahn

Discovery of a novel, orally active himbacine-based thrombin receptor antagonist (SCH 530348) with potent antiplatelet activity.

The discovery of an exceptionally potent series of thrombin receptor (PAR-1) antagonists based on the natural product himbacine is described. Optimization of this series has led to the discovery of 4 (SCH 530348), a potent, oral antiplatelet agent that is currently undergoing Phase-III clinical trials for acute coronary syndrome (unstable angina/non-ST segment elevation myocardial infarction) and secondary prevention of cardiovascular events in high-risk patients.

Inhibition of cellular action of thrombin by N3-cyclopropyl-7-[[4-(1-methylethyl)phenyl]methyl]-7H-pyrrolo[3, 2-f]quinazoline-1,3-diamine (SCH 79797), a nonpeptide thrombin receptor antagonist.

A growing body of evidence suggests an important contribution of the cellular actions of thrombin to thrombosis and restenosis following angioplasty. Recently we reported on SCH 79797 (N3-cyclopropyl-7-¿[4-(1-methylethyl)phenyl]methyl¿-7H-pyrrolo[3, 2-f]quinazoline-1,3-diamine) and its analogs as new potent, nonpeptide thrombin receptor antagonists. This study further characterizes the biochemical and pharmacological actions of pyrroloquinazoline inhibitors of protease activated receptor-1 (PAR-1) in human platelets and coronary artery smooth muscle cells (hCASMC). SCH 79797 and its N-methyl analog (SCH 203099) inhibited binding of a high-affinity thrombin receptor-activating peptide ([(3)H]haTRAP, Ala-Phe(p-F)-Arg-ChA-HArg-[(3)H]Tyr-NH(2)) to PAR-1 with IC(50) values of 70 and 45 nM, respectively. SCH 79797 inhibited [(3)H]haTRAP binding in a competitive manner. SCH 79797 and SCH 203099 inhibited alpha-thrombin- and haTRAP-induced aggregation of human platelets, but did not inhibit human platelet aggregation induced by the tethered ligand agonist for protease-activated receptor-4 (PAR-4), gamma-thrombin, ADP, or collagen. SCH 203099 inhibited surface expression of P-selectin induced by haTRAP and thrombin, and it did not increase P-selectin expression or prevent thrombin cleavage of the receptor. Thrombin and TFLLRNPNDK-NH(2) (TK), a PAR-1-selective agonist, produced transient increases in cytosolic free Ca(2+) concentration ([Ca(2+)](i)) in hCASMC. This increase in [Ca(2+)](i) was inhibited effectively by SCH 79797. However, the Ca(2+) transients induced by SLIGKV-NH(2,) a PAR-2-selective agonist, were not inhibited by SCH 79797. Thrombin- and TK-stimulated [(3)H]thymidine incorporation also was inhibited completely by SCH 79797. The results of this study demonstrate that SCH 79797 and SCH 203099 are potent, selective antagonists of PAR-1 in human platelets and hCASMC. These data also suggest that the thrombin stimulation of Ca(2+) transients and mitogenesis in hCASMC is mediated primarily through activation of PAR-1.

Wiedendiol-A and -B, cholesteryl ester transfer protein inhibitors from the marine sponge Xestospongia wiedenmayeri

Abstract Wiedendiol-A and -B, novel sesquiterpene-hydroquinones which inhibit cholesteryl ester transfer protein (CETP), have been isolated from the marine sponge Xestospongia wiedenmayeri. Additional related marine natural products were also evaluated for CETP inhibition. Compounds that inhibit the activity of CETP may find utility as antiatherosclerosis therapy.

Ca/CaM-Stimulated and cGMP-Specific Phosphodiesterases in Vascular and Non-Vascular Tissues

A large body of evidence indicates that guanosine 3’,5’-cyclic monophosphate (cGMP) plays an essential role in vasorelaxant actions of various agents such as atrial natriuretic factor (ANF), nitrogen oxide containing compounds (e.g., nitroprusside) and endothelium dependent vasodilators (e.g., acetylcholine) (1). These agents elevate cGMP by stimulating either soluble or particulate guanylate cyclase (1).

Selective displacement of [3H]mepyramine from peripheral vs. central nervous system receptors by loratadine, a non-sedating antihistamine

Displacement of [3H]mepyramine binding was compared in membranes from guinea-pig lung vs. cerebral cortex as a measure of affinity for peripheral vs. central nervous system (CNS) histamine receptors. Loratadine, a new non-sedating antihistamine, was found to be the only compound tested which was selective for lung (Ki = 35 nM) vs. cortex (Ki = 118 nM). This difference is statistically significant (P less than 0.05) whereas there was no significant (P greater than 0.05) difference in the Kis between the 2 tissues for terfenadine, astemizole, mequitazine or chlorpheniramine. It is concluded from these and other studies that the lack of significant sedative effects shown with loratadine is due to its poor penetration into the CNS and selectivity for peripheral histamine receptors.

Structure-activity relationships of pyrroloquinazolines as thrombin receptor antagonists.

A series of pyrroloquinazolines has been discovered that represent novel small molecule inhibitors of the intramolecular ligand of the thrombin receptor. Analogs were prepared to study the structure-activity relationships of substitution at the N 1, N3, and N7 positions of the heterocycle. Compounds 4e and 4f have been identified with IC50s of 56 and 52 nM, respectively.

Antiplatelet and antiproliferative effects of SCH 51866, a novel type 1 and type 5 phosphodiesterase inhibitor.

SCH 51866 is a potent and selective PDE1 and PDE5 inhibitor. The antiplatelet, antiproliferative, and hemodynamic effects of SCH 51866 were compared with those of E4021, a highly selective PDE5 inhibitor. SCH 51866 inhibited PDE1 and PDE5 isozymes with a 50% inhibitory concentration (IC50) of 70 and 60 nM, respectively. SCH 51866 and E4021 inhibited washed human platelet aggregation induced by collagen with an IC50 of 10 and 4 microM, respectively, and attenuated (p < 0.05) the adhesion of 111indium-labeled platelets to the nylon filament-injured rat aorta. The doses of SCH 51866 and E4021 that inhibited platelet adhesion caused significant increases in platelet cyclic guanosine monophosphate (cGMP; p < 0.05). SCH 51866 (1-10 mg/kg, p.o. twice daily) but not E4021 (3-30 mg/kg, p.o twice daily) inhibited neointima formation in the carotid arteries of spontaneously hypertensive rats (SHRs) subjected to balloon angioplasty. Moreover, SCH 51866 (0.3-10 mg/kg, p.o.) elicited dose-dependent reduction in blood pressure in SHRs, whereas E4021 (3-30 mg/kg, p.o.) did not affect blood pressure in SHRs. In conclusion, the data suggest that inhibition of PDE1 and PDE5 isozymes by SCH 51866 exerts antiplatelet and vascular protective effects. In comparison, inhibition of PDE5 alone by E4021 exhibited antiplatelet effects without affecting neointima formation.

Substituted 1,3,5-triazines as cholesteryl ester transfer protein inhibitors

Abstract A series of substituted 1,3,5-triazines (represented by 2 ) were synthesized and evaluated for their cholesteryl ester transfer protein (CETP) inhibitory activities. Among the most potent compounds were those with R = benzyl (IC 50 = 9 μM) and R = [(2-naphthalenyl)methyl] (IC 50 = 5 μM).

Relative activities of SCH 23390 and its analogs in three tests for D1/DA1 dopamine receptor antagonism

Inhibitory activities of a series of analogs of SCH 23390 ((R)-(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H-3- benzazepine) in which the 7-chloro group was substituted by bromo, fluoro, methyl and methoxy groups, respectively, were compared in three tests for D1 and DA1 dopamine (DA) receptor antagonism: inhibition of DA-induced renal vasodilation in the anesthetized dog (DA1 receptor model), inhibition of DA-stimulated adenylate cyclase in the striatum of adult female rats (D1 receptor model) and displacement of [3H]SCH 23390 in the striatal homogenates of male rats. In addition the D2 receptor affinity of each of the compounds chosen was assessed via displacement of [3H]spiperone binding from rat striatum. S-enantiomers of the Cl and CH3 analogs were 200- to 700-fold weaker than the respective R-enantiomers in all three tests. The activity of all the R-enantiomers was in the nanomolar range and varied no more than 8-fold in all three tests. The F analog in the ligand binding test was the only exception, which was 30-fold weaker than the C1 analog. All of the R-enantiomers studied showed much weaker affinity for the D2 receptor, as assessed by displacement of [3H]spiperone binding. Similar enantiomer selectivity and parallel affinities of the R-enantiomers in the prototype models for D1 and DA1 receptors strengthen the evidence in support of identity between the D1 and DA1 dopamine receptors. These results further indicate that displacement of SCH 23390 in the ligand binding test reflects affinity of a compound for D1 and DA1 dopamine receptors.

Development of Proteinase-Activated Receptor 1 Antagonists as Therapeutic Agents for Thrombosis, Restenosis and Inflammatory Diseases

Thrombin, a plasma serine protease, plays a key role not only in coagulation and hemostasis but in thrombosis, restenosis and atherosclerosis. Thrombin activates platelets, endothelium, inflammatory cells and smooth muscle cells. The cellular action of thrombin is mediated by specific G-protein coupled thrombin receptors called proteinase-activated receptors (protease-activated receptor or PARs). Among the three thrombin receptors, PAR1 is the primary thrombin receptor in human and animal cells with an exception of non-primate platelets. An increased thrombin generation and PAR1 expression are observed on cells within atherosclerotic plaque and thrombus and following vascular injury. Animal studies with PAR1 deficient mice and small molecule antagonists indicate an important role of PAR1 in thrombosis and restenosis and thus the therapeutic potential of a PAR1 antagonist in treating these diseases. Development of a thrombin receptor tethered ligand analog binding assay led to the discovery of several different series of potent, nonpeptide small molecular antagonists of PAR1. These antagonists are PAR1 selective and inhibit most of the cellular effects of thrombin. A PAR1 antagonist has an advantage over a direct thrombin inhibitor since it does not inhibit enzymatic action of thrombin in the coagulation cascade with the consequent minimal bleeding side-effects, unlike a direct thrombin inhibitor. In addition, the emerging evidence for the role of PAR1 in various inflammatory diseases suggests as yet unexplored therapeutic potentials of PAR1 antagonists in various inflammatory diseases.