Development of human cGAS-specific small-molecule inhibitors for repression of dsDNA-triggered interferon expression.
Lodoe LamaCarolina AduraWei XieDaisuke TomitaTaku KameiVitaly KuryavyiTasos GogakosJoshua I SteinbergMichael MillerLavoisier Ramos-EspirituYasutomi AsanoShogo HashizumeJumpei AidaToshihiro ImaedaRei OkamotoAndy J JenningsMayako MichinoTakanobu KuroitaAndrew StamfordPu GaoPeter MeinkeJ Fraser GlickmanDinshaw J PatelThomas TuschlPublished in: Nature communications (2019)
Cyclic GMP-AMP synthase (cGAS) is the primary sensor for aberrant intracellular dsDNA producing the cyclic dinucleotide cGAMP, a second messenger initiating cytokine production in subsets of myeloid lineage cell types. Therefore, inhibition of the enzyme cGAS may act anti-inflammatory. Here we report the discovery of human-cGAS-specific small-molecule inhibitors by high-throughput screening and the targeted medicinal chemistry optimization for two molecular scaffolds. Lead compounds from one scaffold co-crystallize with human cGAS and occupy the ATP- and GTP-binding active site. The specificity and potency of these drug candidates is further documented in human myeloid cells including primary macrophages. These novel cGAS inhibitors with cell-based activity will serve as probes into cGAS-dependent innate immune pathways and warrant future pharmacological studies for treatment of cGAS-dependent inflammatory diseases.
Keyphrases
- small molecule
- endothelial cells
- induced pluripotent stem cells
- single cell
- dendritic cells
- bone marrow
- stem cells
- anti inflammatory
- innate immune
- emergency department
- cell therapy
- drug delivery
- pseudomonas aeruginosa
- immune response
- transcription factor
- cell death
- single molecule
- protein kinase
- cancer therapy
- cell cycle arrest
- adverse drug