Michel Belley

The utilization of recombinant prostanoid receptors to determine the affinities and selectivities of prostaglandins and related analogs

Stable cell lines that individually express the eight known human prostanoid receptors (EP(1), EP(2), EP(3), EP(4), DP, FP, IP and TP) have been established using human embryonic kidney (HEK) 293(EBNA) cells. These recombinant cell lines have been employed in radioligand binding assays to determine the equilibrium inhibitor constants of known prostanoid receptor ligands at these eight receptors. This has allowed, for the first time, an assessment of the affinity and selectivity of several novel compounds at the individual human prostanoid receptors. This information should facilitate interpretation of pharmacological studies that employ these ligands as tools to study human tissues and cell lines and should, therefore, result in a greater understanding of prostanoid receptor biology.

FROM INDOMETHACIN TO A SELECTIVE COX-2 INHIBITOR Development of Indolalkanoic Acids as Potent and Selective Cyclooxygenase-2 Inhibitors

Abstract A series of potent and highly selective cyclooxygenase-2 inhibitors have been prepared by replacing the benzoyl group of indomethacin with a 4-bromobenzyl group, and by extending the acetic acid side chain. These compounds show anti-inflammatory activity in rats with no evidence of GI toxicity, even at high doses.

Discovery of MK-0476, a potent and orally active leukotriene D4 receptor antagonist devoid of peroxisomal enxyme induction

Abstract Structure-activity studies leading to the discovery of 1 (MK-0476) are described. The initial compound of this series, 2, was a potent leukotriene D4 (LTD4) antagonist, but was also a peroxisomal enzyme inducer in the mouse. Structure-activity relationships around the thioether chain were explored to remove this undesirable feature. It was found that alkyl substituents in the s position relative to the carboxylic acid reduce the potency as a peroxisomal enzyme inducer while preserving the LTD4 antagonistic properties. Dialkyl substitution essentially eliminates the enzyme induction. The optimal styryl quinoline 1 exhibited high in vitro potency and in vivo activity on oral dosing without significant liver enzyme induction in the mouse.

Discovery of [(3-bromo-7-cyano-2-naphthyl)(difluoro)methyl]phosphonic acid, a potent and orally active small molecule PTP1B inhibitor

A series of quinoline/naphthalene-difluoromethylphosphonates were prepared and were found to be potent PTP1B inhibitors. Most of these compounds bearing polar functionalities or large lipophilic residues did not show appreciable oral bioavailability in rodents while small and less polar analogs displayed moderate to good oral bioavailability. The title compound was found to have the best overall potency and pharmacokinetic profile and was found to be efficacious in animal models of diabetes and cancer.

Synthesis of the Nanomolar Photoaffinity GABAB Receptor Ligand CGP 71872 Reveals Diversity in the Tissue Distribution of GABAB Receptor Forms

A radioiodinated probe, [125I]-CGP 71872, containing an azido group that can be photoactivated, was synthesized and used to characterize GABA(B) receptors. Photoaffinity labeling experiments using crude membranes prepared from rat brain revealed two predominant ligand binding species at approximately 130 and approximately 100 kDa believed to represent the long (GABA(B)R1a) and short (GABA(B)R1b) forms of the receptor. Indeed, these ligand binding proteins were immunoprecipitated using a GABA(B) receptor-specific antibody confirming the receptor specificity of the photoaffinity probe. Most convincingly, [125I]-CGP 71872 binding was competitively inhibited in a dose-dependent manner by cold CGP 71872, GABA, saclofen, (-)-baclofen, (+)-baclofen and (L)-glutamic acid with a rank order and stereospecificity characteristic of the GABA(B) receptor. Photoaffinity labeling experiments revealed that the recombinant GABA(B)R2 receptor does not bind [125I]-CGP 71872, providing surprising and direct evidence that CGP 71872 is a GABA(B)R1 selective antagonist. Photoaffinity labeling experiments using rat tissues showed that both GABA(B)R1a and GABA(B)R1b are co-expressed in the brain, spinal cord, stomach and testis, but only the short GABA(B)R1b receptor form was detected in kidney and liver whereas the long GABA(B)R1a form was selectively expressed in the adrenal gland, pituitary, spleen and prostate. We report herein the synthesis and biochemical characterization of the nanomolar affinity [125I]-CGP 71872 and CGP 71872 GABA(B)R1 ligands, and differential tissue expression of the long GABA(B)R1a and short GABA(B)R1b receptor forms in rat and dog.

The discovery of a new structural class of potent orally active leukotriene D4 antagonists

Abstract A new, potent, orally active leukotriene D 4 receptor antagonist has been discovered. The structure -activity relationship leading to L-695,499 is described.

Structure-activity relationship of triaryl propionic acid analogues on the human EP3 prostanoid receptor.

Potent and selective ligands for the human EP3 prostanoid receptor are described. Triaryl compounds bearing an ortho-substituted propionic acid moiety were identified as potent EP3 antagonists based on the SAR described herein. The binding affinities of key compound on all eight human prostanoid receptors is reported.

Formation of reactive tricyclic intermediates via the intramolecular cyclopropanation of dihydropyrans. Synthesis of eucalyptol

Abstract Tricyclic compound 3 was synthesized via a cyclopropanation reaction promoted by [Rh(OAc) 2 ] 2 . This highly strained compound was found to undergo selective chemical transformations to give [2.2.2] oxa-bicyclic ketones. This methodology was applied in a total synthesis of the monoterpene, eucalyptol.

Synthesis and SAR of pyrimidine-based, non-nucleotide P2Y14 receptor antagonists

A weak antagonist of the pyrimidinergic receptor P2Y(14) containing a dihydropyridopyrimidine core was identified through high-throughput screening. Subsequent optimization led to potent, non-UTP competitive antagonists and represent the first reported non-nucleotide antagonists of this receptor. Compound 18q was identified as a 10 nM P2Y(14) antagonist with good oral bioavailability and provided sufficient exposure in mice to be used as a tool for future in vivo studies.

The identification of 4,7-disubstituted naphthoic acid derivatives as UDP-competitive antagonists of P2Y14.

A weak, UDP-competitive antagonist of the pyrimidinergic receptor P2RY(14) with a naphthoic acid core was identified through high-throughput screening. Optimization provided compounds with improved potency but poor pharmacokinetics. Acylglucuronidation was determined to be the major route of metabolism. Increasing the electron-withdrawing nature of the substituents markedly reduced glucuronidation and improved the pharmacokinetic profile. Additional optimization led to the identification of compound 38 which is an 8 nM UDP-competitive antagonist of P2Y(14) with a good pharmacokinetic profile.