A novel, potent, and orally bioavailable class of product-like inhibitors of the HCV NS3 protease was discovered by constraining the P2-P3 amide bond and the P3 hydrocarbon substituent to the protease-bound conformation. This preorganization was accomplished by incorporation of the P2-P3 amide into a six-membered ring attached to the P2-proline 5-position. Isothermal calorimetric characterization of the role of hydrocarbon substitution of this six-membered ring, upon binding the HCV NS3 protease, was found to be exclusively entropic in nature. The synthesis, preliminary SAR and pharmacokinetic profiling of this compact, indolizidinone-derived scaffold are described.
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