| Literature DB >> 24437689 |
Makonen Belema1, Van N Nguyen, Jeffrey L Romine, Denis R St Laurent, Omar D Lopez, Jason T Goodrich, Peter T Nower, Donald R O'Boyle, Julie A Lemm, Robert A Fridell, Min Gao, Hua Fang, Rudolph G Krause, Ying-Kai Wang, A Jayne Oliver, Andrew C Good, Jay O Knipe, Nicholas A Meanwell, Lawrence B Snyder.
Abstract
A medicinal chemistry campaign that was conducted to address a potential genotoxic liability associated with an aniline-derived scaffold in a series of HCV NS5A inhibitors with dual GT-1a/-1b inhibitory activity is described. Anilides 3b and 3c were used as vehicles to explore structural modifications that retained antiviral potency while removing the potential for metabolism-based unmasking of the embedded aniline. This effort resulted in the discovery of a highly potent biarylimidazole chemotype that established a potency benchmark in replicon assays, particularly toward HCV GT-1a, a strain with significant clinical importance. Securing potent GT-1a activity in a chemotype class lacking overt structural liabilities was a critical milestone in the effort to realize the full clinical potential of targeting the HCV NS5A protein.Entities:
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Year: 2014 PMID: 24437689 DOI: 10.1021/jm4016203
Source DB: PubMed Journal: J Med Chem ISSN: 0022-2623 Impact factor: 7.446