| Literature DB >> 9089336 |
H I Skulnick1, P D Johnson, P A Aristoff, J K Morris, K D Lovasz, W J Howe, K D Watenpaugh, M N Janakiraman, D J Anderson, R J Reischer, T M Schwartz, L S Banitt, P K Tomich, J C Lynn, M M Horng, K T Chong, R R Hinshaw, L A Dolak, E P Seest, F J Schwende, B D Rush, G M Howard, L N Toth, K R Wilkinson, K R Romines.
Abstract
Recently, cyclooctylpyranone derivatives with m-carboxamide substituents (e.g. 2c) were identified as potent, nonpeptidic HIV protease inhibitors, but these compounds lacked significant antiviral activity in cell culture. Substitution of a sulfonamide group at the meta position, however, produces compounds with excellent HIV protease binding affinity and antiviral activity. Guided by an iterative structure-based drug design process, we have prepared and evaluated a number of these derivatives, which are readily available via a seven-step synthesis. A few of the most potent compounds were further evaluated for such characteristics as pharmacokinetics and toxicity in rats and dogs. From this work, the p-cyanophenyl sulfonamide derivative 35k emerged as a promising inhibitor, was selected for further development, and entered phase I clinical trials.Entities:
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Year: 1997 PMID: 9089336 DOI: 10.1021/jm960441m
Source DB: PubMed Journal: J Med Chem ISSN: 0022-2623 Impact factor: 7.446