Chemistry & Biology
Volume 22, Issue 9, 17 September 2015, Pages 1174-1184
Journal home page for Chemistry & Biology

Article
Inflammatory Signaling by NOD-RIPK2 Is Inhibited by Clinically Relevant Type II Kinase Inhibitors

https://doi.org/10.1016/j.chembiol.2015.07.017Get rights and content
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Highlights

  • Discovery of type II kinase inhibitors as highly efficacious for RIPK2 inhibition

  • RIPK2 autophosphorylation and ubiquitination are blocked by FDA-approved drugs

  • RIPK2 crystal structure reveals an allosteric pocket for improving drug selectivity

  • NOD-mediated inflammatory signaling is attenuated without affecting TLRs

Summary

RIPK2 mediates pro-inflammatory signaling from the bacterial sensors NOD1 and NOD2, and is an emerging therapeutic target in autoimmune and inflammatory diseases. We observed that cellular RIPK2 can be potently inhibited by type II inhibitors that displace the kinase activation segment, whereas ATP-competitive type I inhibition was only poorly effective. The most potent RIPK2 inhibitors were the US Food and Drug Administration-approved drugs ponatinib and regorafenib. Their mechanism of action was independent of NOD2 interaction and involved loss of downstream kinase activation as evidenced by lack of RIPK2 autophosphorylation. Notably, these molecules also blocked RIPK2 ubiquitination and, consequently, inflammatory nuclear factor κB signaling. In monocytes, the inhibitors selectively blocked NOD-dependent tumor necrosis factor production without affecting lipopolysaccharide-dependent pathways. We also determined the first crystal structure of RIPK2 bound to ponatinib, and identified an allosteric site for inhibitor development. These results highlight the potential for type II inhibitors to treat indications of RIPK2 activation as well as inflammation-associated cancers.

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This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).