Pharmacokinetic Benefits of 3,4-Dimethoxy Substitution of a Phenyl Ring and Design of Isosteres Yielding Orally Available Cathepsin K Inhibitors
Copyright policy )Pharmacokinetic Benefits of 3,4-Dimethoxy Substitution of a Phenyl Ring and Design of Isosteres Yielding Orally Available Cathepsin K Inhibitors
Rational structure-based design has yielded highly potent inhibitors of cathepsin K (Cat K) with excellent physical properties, selectivity profiles, and pharmacokinetics. Compounds with a 3,4-(CH₃O)₂Ph motif, such as 31, were found to have excellent metabolic stability and absorption profiles. Through metabolite identification studies, a reactive metabolite risk was identified with this motif. Subsequent structure-based design of isoteres culminated in the discovery of an optimized and balanced inhibitor (indazole, 38).
- AstraZeneca (United Kingdom) United Kingdom
Male, Models, Molecular, Indazoles, Cathepsin K, Stereoisomerism, Blood Proteins, Rats, Structure-Activity Relationship, Cyclohexanes, Drug Design, Hepatocytes, Animals, Humans, Rats, Wistar, Cells, Cultured, Protein Binding
Male, Models, Molecular, Indazoles, Cathepsin K, Stereoisomerism, Blood Proteins, Rats, Structure-Activity Relationship, Cyclohexanes, Drug Design, Hepatocytes, Animals, Humans, Rats, Wistar, Cells, Cultured, Protein Binding
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