Glecaprevir
was identified as a potent HCV NS3/4A protease inhibitor,
and an enabling synthesis was required to support the preclinical
evaluation and subsequent Phase I clinical trials. The enabling route
to glecaprevir was established through further development of the
medicinal chemistry route. The key steps in the synthesis involved
a ring-closing metathesis (RCM) reaction to form the 18-membered macrocycle
and a challenging fluorination step to form a key amino acid. The
enabling route was successfully used to produce 41 kg of glecaprevir,
sufficient to support the preclinical evaluation and early clinical
development.
The nuclear hormone receptor retinoic acid receptor-related orphan C2 (RORC2, also known as RORγt) is a promising target for the treatment of autoimmune diseases. A small molecule, inverse agonist of the receptor is anticipated to reduce production of IL-17, a key proinflammatory cytokine. Through a high-throughput screening approach, we identified a molecule displaying promising binding affinity for RORC2, inhibition of IL-17 production in Th17 cells, and selectivity against the related RORA and RORB receptor isoforms. Lead optimization to improve the potency and metabolic stability of this hit focused on two key design strategies, namely, iterative optimization driven by increasing lipophilic efficiency and structure-guided conformational restriction to achieve optimal ground state energetics and maximize receptor residence time. This approach successfully identified 3-cyano- N-(3-(1-isobutyrylpiperidin-4-yl)-1-methyl-4-(trifluoromethyl)-1 H-pyrrolo[2,3- b]pyridin-5-yl)benzamide as a potent and selective RORC2 inverse agonist, demonstrating good metabolic stability, oral bioavailability, and the ability to reduce IL-17 levels and skin inflammation in a preclinical in vivo animal model upon oral administration.
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