Structure
Volume 20, Issue 10, 10 October 2012, Pages 1704-1714
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Article
The Crystal Structure of the Catalytic Domain of the NF-κB Inducing Kinase Reveals a Narrow but Flexible Active Site

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Summary

The NF-κB inducing kinase (NIK) regulates the non-canonical NF-κB pathway downstream of important clinical targets including BAFF, RANKL, and LTβ. Despite numerous genetic studies associating dysregulation of this pathway with autoimmune diseases and hematological cancers, detailed molecular characterization of this central signaling node has been lacking. We undertook a systematic cloning and expression effort to generate soluble, well-behaved proteins encompassing the kinase domains of human and murine NIK. Structures of the apo NIK kinase domain from both species reveal an active-like conformation in the absence of phosphorylation. ATP consumption and peptide phosphorylation assays confirm that phosphorylation of NIK does not increase enzymatic activity. Structures of murine NIK bound to inhibitors possessing two different chemotypes reveal conformational flexibility in the gatekeeper residue controlling access to a hydrophobic pocket. Finally, a single amino acid difference affects the ability of some inhibitors to bind murine and human NIK with the same affinity.

Highlights

► Production of soluble NIK kinase domain ► Structures of apo murine and human NIK possess active conformation ► Structure of mNIK bound to inhibitors reveals conformational flexibility ► Inhibitor potency varies against mNIK and hNIK due to substitution in the active site

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