ABSTRACT
The paper describes the SAR/SPR studies that led to the discovery of phenoxy cyclopropyl phenyl acetamide derivatives as potent and selective GPR119 agonists. Based on a cis cyclopropane scaffold discovered previously, phenyl acetamides such as compound 17 were found to have excellent GPR119 potency and improved physicochemical properties. Pharmacokinetic data of compound 17 in rat, dog and rhesus will be described. Compound 17 was suitable for QD dosing based on its predicted human half-life, and its projected human dose was much lower than that of the recently reported structurally-related benzyloxy compound 2. Compound 17 was selected as a tool compound candidate for NHP (Non-Human Primate) efficacy studies.
Subject(s)
Acetamides/pharmacology , Receptors, G-Protein-Coupled/agonists , Acetamides/pharmacokinetics , Animals , Half-Life , Humans , Quantum Dots , Rats , Structure-Activity RelationshipABSTRACT
Screening of the Merck sample collection identified compound 1 as a weakly potent GPR119 agonist (hEC(50)=3600 nM). Dual termini optimization of 1 led to compound 36 having improved potency, selectivity, and formulation profile, however, modest physical properties (PP) hindered its utility. Design of a new core containing a cyclopropyl restriction yielded further PP improvements and when combined with the termini SAR optimizations yielded a potent and highly selective agonist suitable for further preclinical development (58).
Subject(s)
Diabetes Mellitus, Type 2 , Drug Design , Receptors, G-Protein-Coupled/agonists , Animals , Diabetes Mellitus, Type 2/drug therapy , Ethers, Cyclic/chemical synthesis , Ethers, Cyclic/chemistry , Humans , Mice , Molecular Structure , Stereoisomerism , Structure-Activity RelationshipABSTRACT
Counterscreening compounds from a Merck PPAR program discovered lead 1, as a nanomolar LXR/PPAR dual agonist. SAR optimization developed a series of heterocyclic LXR agonists having excellent selectivity over all PPAR isoforms and possessing high LXR affinity and strong in vivo potency.
