Integration of optimized substituent patterns to produce highly potent 4-aryl-pyridine glucagon receptor antagonists

Gaetan H Ladouceur; James H Cook; Donald L Hertzog; J Howard Jones; Thomas Hundertmark; Mary Korpusik; Timothy G Lease; James N Livingston; Margit L MacDougall; Martin H Osterhout; Kathleen Phelan; Romulo H Romero; William R Schoen; Chunning Shao; Roger A Smith

doi:10.1016/s0960-894x(02)00736-9

Integration of optimized substituent patterns to produce highly potent 4-aryl-pyridine glucagon receptor antagonists

Bioorg Med Chem Lett. 2002 Dec 2;12(23):3421-4. doi: 10.1016/s0960-894x(02)00736-9.

Authors

Gaetan H Ladouceur¹, James H Cook, Donald L Hertzog, J Howard Jones, Thomas Hundertmark, Mary Korpusik, Timothy G Lease, James N Livingston, Margit L MacDougall, Martin H Osterhout, Kathleen Phelan, Romulo H Romero, William R Schoen, Chunning Shao, Roger A Smith

Affiliation

¹ Department of Chemistry Research, Bayer Research Center, West Haven, CT 06516, USA. gaetan.ladouceur.b@bayer.com

PMID: 12419375
DOI: 10.1016/s0960-894x(02)00736-9

Abstract

Optimized substituent patterns in 4-aryl-pyridine glucagon receptor antagonists were merged to produce highly potent derivatives containing both a 3-[(1R)-hydroxyethyl] and a 2'-hydroxy group. Due to restricted rotation of the phenyl-pyridine bond, these analogues exist as four isomers. A diastereoselective methylcopper reaction was developed to facilitate the synthesis, and single isomers were isolated with activities in the range IC(50)=10-25 nM.

MeSH terms

Benzyl Compounds / chemistry*
Benzyl Compounds / pharmacology*
Inhibitory Concentration 50
Pyridines / chemistry*
Pyridines / pharmacology*
Receptors, Glucagon / antagonists & inhibitors*
Stereoisomerism
Structure-Activity Relationship

Substances

Benzyl Compounds
Pyridines
Receptors, Glucagon