Abstract
A multistep scalable synthesis of the clinically important hepatitis C virus (HCV) protease inhibitor BILN 2061 (1) is described. The synthesis is highly convergent and consists of two amide bond formations, one etherification, and one ring-closing metathesis (RCM) step, using readily available building blocks 2-5. The optimization of each step is described at length. The main focus of the paper is the study of the RCM step and the description of the main problems faced when scaling up to pilot scale this highly powerful but very challenging synthetic operation. Eventually, the RCM reaction was smoothly scaled up to produce >400 kg of cyclized product.
MeSH terms
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Antiviral Agents / chemical synthesis*
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Antiviral Agents / chemistry
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Antiviral Agents / pharmacology
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Carbamates / chemical synthesis*
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Carbamates / chemistry
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Carbamates / pharmacology
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Chromatography, High Pressure Liquid
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Cyclization
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Hepacivirus / drug effects
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Hepacivirus / enzymology*
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Macrocyclic Compounds / chemical synthesis*
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Macrocyclic Compounds / chemistry
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Macrocyclic Compounds / pharmacology
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Molecular Structure
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Protease Inhibitors / chemical synthesis*
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Protease Inhibitors / chemistry
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Protease Inhibitors / pharmacology
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Quinolines / chemical synthesis*
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Quinolines / chemistry
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Quinolines / pharmacology
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Thiazoles / chemical synthesis*
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Thiazoles / chemistry
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Thiazoles / pharmacology
Substances
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Antiviral Agents
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BILN 2061
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Carbamates
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Macrocyclic Compounds
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Protease Inhibitors
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Quinolines
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Thiazoles