1. Orally bioavailable, liver-selective stearoyl-CoA desaturase (SCD) inhibitors
- Author
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Ian Henderson, Jeffrey Chisholm, Nathan A. Zautke, Melanie Boze, Jia Hao, Timur Zilbershtein, Natalya I. Vasilevich, Dmitry Koltun, Jeff Zablocki, Elena Mayboroda, Andrei Glushkov, Sandra A. Brunn, Nancy Chu, Parkhill Eric Q, Kwan Leung, Andrew G. Cole, and Nevena Mollova
- Subjects
Clinical Biochemistry ,Pharmaceutical Science ,Adipose tissue ,Administration, Oral ,Pyrimidinones ,Pharmacology ,Biochemistry ,Rats, Sprague-Dawley ,chemistry.chemical_compound ,Oral administration ,Cell Line, Tumor ,Drug Discovery ,Benzyl Compounds ,medicine ,Dietary Carbohydrates ,Animals ,Humans ,Tissue Distribution ,Enzyme Inhibitors ,Molecular Biology ,biology ,Triglyceride ,Chemistry ,Organic Chemistry ,Stearoyl-CoA ,Bioavailability ,Rats ,Stearoyl-CoA Desaturase ,medicine.anatomical_structure ,Enzyme inhibitor ,Hepatocyte ,biology.protein ,Microsomes, Liver ,Molecular Medicine - Abstract
We discovered a structurally novel SCD (Delta9 desaturase) inhibitor 4a (CVT-11,563) that has 119 nM potency in a human cell-based (HEPG2) SCD assay and selectivity against Delta5 and Delta6 desaturases. This compound has 90% oral bioavailability (rat) and excellent plasma exposure (dAUC 935 ng h/mL). Additionally, 4a shows moderately selective liver distribution (three times vs plasma and adipose tissue) and relatively low brain penetration. In a five-day study (high sucrose diet, rat) compound 4a significantly reduced SCD activity as determined by GC analysis of fatty acid composition in plasma and liver. We describe the discovery of 4a from HTS hit 1 followed by scaffold replacement and SAR studies focused on DMPK properties.
- Published
- 2009