Discovery of Potent and Orally Bioavailable Pyrimidine Amide cGAS Inhibitors via Structure-Guided Hybridization

  • ACS Med Chem Lett. 2024 Nov 25;15(12):2201-2209. doi: 10.1021/acsmedchemlett.4c00471.
Patrick Cyr  1 Lee D Fader  1 Jason D Burch  1 Kelly A Pike  1 Daniel V Sietsema  2 Marc-Olivier Boily  1 Stéphane Ciblat  1 Nicolas Sgarioto  1 Alexander M Skeldon  1 Samuel Gaudreault  1 Philippe Le Gros  1 Valérie Dumais  1 Daniel J J McKay  1 Nathan S Abraham  2 Ria Seliniotakis  1 Ramsay E Beveridge  1
Affiliations
  • 1. Ventus Therapeutics, 4800 rue Lévy #110, Saint-Laurent H4R 2P1, Quebec, Canada.
  • 2. Ventus Therapeutics, 100 Beaver St, Suite 201, Waltham, Massachusetts 02453, United States.
Abstract

Using a high-throughput screening (HTS) approach, a new GTP-site binding pyridine-carboxylate series of cGAS inhibitors was discovered. The biochemical potency of this new pyridine carboxylate series was improved 166-fold from the original hit to double-digit nanomolar levels using structure-based design insights, but the series was found to suffer from low permeability and low bioavailability. A structure-based hybridization of the metal-binding motifs of the pyridine carboxylate series and our previously disclosed tetrahydrocarboline GTP-site ligand 23 identified pyrimidine amide compound 36. Compound 36 is potent against both human and mouse cGAS isoforms and has a favorable pharmacokinetic (PK) profile in mice. Additionally, compound 36 displayed a dose-dependent reduction in cGAMP production in a ConA pharmacodynamic mouse model of acute liver injury, demonstrating potential utility as an in vivo tool compound for further investigation of the cGAS pathway.

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