Discovery, optimization and evaluation of isothiazolo[5,4-b]pyridine derivatives as RIPK1 inhibitors with potent in vivo anti-SIRS activity

Receptor-interacting protein kinase-1 (RIPK1) is involved in the necroptosis pathway, which regulates inflammatory signaling and cell death in a variety of diseases, including inflammatory and neurodegenerative disorders. We identified a novel hit compound 36 by a cell-based screening assay (anti-necroptosis EC50 = 58 nM). Starting from compound 36, we designed a series of scaffolds to improve anti-necroptosis activity, physicochemical properties and metabolic stability. The isothiazolo[5,4-b]pyridine backbone proved to be a promising scaffold which provided a number of potent necroptosis inhibitors. Compound 56, for example, effectively blocked necroptosis in both human and mouse cells (EC50 = 1-5 nM). A binding assay showed that compound 56 potently binds to RIPK1 (Kd = 13 nM), but not RIPK3 (Kd > 10,000 nM). Kinase functional assay (ADP-Glo) confirmed that compound 56 inhibits RIPK1 phosphorylation with an IC50 at 5.8 nM. Importantly, compound 56 displayed excellent cross-species liver microsomal metabolic stability (t1/2 > 90 min). Furthermore, compound 56 exhibited favorable in vitro safety profiles in hERG and CYP assays. Finally, pre-treatment with 56 significantly reduced hypothermia and lethal shock in the systemic inflammatory response syndrome mice model. Taken together, compound 56 represented a promising prototype for the development of therapeutic agent to treat inflammation-related diseases.