Allosteric ligands within a given chemotype can have the propensity to display a wide range of pharmacology, as well as unexpected changes in GPCR subtype selectivity, typically mediated by single-atom modifications to the ligand. Due to the unexpected nature of these "molecular switches", chemotypes with this property are typically abandoned in lead optimization. Recently, we have found that in vivo oxidative metabolism by CYPs can also engender molecular switches within allosteric ligands, changing the mode of pharmacology and leading to unwanted toxicity.
View Article and Find Full Text PDFThe 1,2,3-triazole has been successfully utilized as an amide bioisostere in multiple therapeutic contexts. Based on this precedent, triazole analogues derived from VX-809 and VX-770, prominent amide-containing modulators of the cystic fibrosis transmembrane conductance regulator (CFTR), were synthesized and evaluated for CFTR modulation. Triazole 11, derived from VX-809, displayed markedly reduced efficacy in F508del-CFTR correction in cellular TECC assays in comparison to VX-809.
View Article and Find Full Text PDFThis Letter describes the synthesis and SAR, developed through an iterative analogue library approach, of a novel series of selective M1 mAChR antagonists for the potential treatment of Parkinson's disease, dystonia and other movement disorders. Compounds in this series possess M1 antagonist IC(50)s in the 441nM-19microM range with 8- to >340-fold functional selectivity versus rM2-rM5.
View Article and Find Full Text PDF