A novel assembly of two structurally related 14-membered ring macrocyclic hepatitis C virus protease inhibitors is presented. Key to their successful construction was an ultimate ring-closing metathesis step on the respective highly functionalized dienyl-ureas. In the case of IDX316, this procedure significantly outperformed the original macrocyclizations in terms of reaction conditions, impurity profile, product isolation, and basic efficiency metrics. Simple nonchromatographic purification methods achieved sub-10-ppm ruthenium content in the isolated product. Overall yields to IDX316 from all five starting materials ranged from 11 to 40%, and the estimated process mass intensity was improved by a factor of 50 relative to the original unscalable discovery-based routes. Application of similar methodology in the case of IDX320 and first scale-up to halfkilogram batch sizes was demonstrated.
Here, we describe the design, synthesis, biological evaluation, and identification of a clinical candidate non-nucleoside reverse transcriptase inhibitors (NNRTIs) with a novel aryl-phospho-indole (APhI) scaffold. NNRTIs are recommended components of highly active antiretroviral therapy (HAART) for the treatment of HIV-1. Since a major problem associated with NNRTI treatment is the emergence of drug resistant virus, this work focused on optimization of the APhI against clinically relevant HIV-1 Y181C and K103N mutants and the Y181C/K103N double mutant. Optimization of the phosphinate aryl substituent led to the discovery of the 3-Me,5-acrylonitrile-phenyl analogue RP-13s (IDX899) having an EC50 of 11 nM against the Y181C/K103N double mutant.
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