Abstract
Nek7 is a serine/threonine-protein kinase required for proper spindle formation and cytokinesis. Elevated Nek7 levels have been observed in several cancers, and inhibition of Nek7 might provide a route to the development of cancer therapeutics. To date, no selective and potent Nek7 inhibitors have been identified. Nek7 crystal structures exhibit an improperly formed regulatory-spine (R-spine), characteristic of an inactive kinase. We reasoned that the preference of Nek7 to crystallise in this inactive conformation might hinder attempts to capture Nek7 in complex with Type I inhibitors. Here, we have introduced aromatic residues into the R-spine of Nek7 with the aim to stabilise the active conformation of the kinase through R-spine stacking. The strong R-spine mutant Nek7SRS retained catalytic activity and was crystallised in complex with compound 51, an ATP-competitive inhibitor of Nek2 and Nek7. Subsequently, we obtained the same crystal form for wild-type Nek7WT in apo form and bound to compound 51. The R-spines of the three well-ordered Nek7WT molecules exhibit variable conformations while the R-spines of the Nek7SRS molecules all have the same, partially stacked configuration. Compound 51 bound to Nek2 and Nek7 in similar modes, but differences in the precise orientation of a substituent highlights features that could be exploited in designing inhibitors that are selective for particular Nek family members. Although the SRS mutations are not required to obtain a Nek7–inhibitor structure, we conclude that it is a useful strategy for restraining the conformation of a kinase in order to promote crystallogenesis.
Highlights
The NIMA-related kinases (Neks) are a family of Ser/Thr protein kinases, first discovered in Aspergillus nidulans that are conserved in eukaryotes [1]
Nek7 adopts an inactive conformation in all published structures, and we reasoned that Nek7 trapped in an active conformation would crystallise in a different form
Aurora-A, for example, is regulated through interactions with binding partners such as TPX2 and TACC3 that promote the formation of a stacked R-spine [39,40,41]
Summary
The NIMA-related kinases (Neks) are a family of Ser/Thr protein kinases, first discovered in Aspergillus nidulans that are conserved in eukaryotes [1]. The mitotic substrates of Nek include the regulator of G-protein signalling RGS2 [4] and the microtubule-binding protein EML4 [5]. Nek mediates the assembly of the NLRP3 inflammasome, a protein complex that activates inflammatory caspases in response to microbes [6,7,8,9]. Nek contributes to the formation of microtubule-dependent, extended cytoplasmic protrusions associated with the motility of non-small cell lung cancer cells that express the EML4-ALK fusion protein [10]. Nek activity contributes to several disease-related pathways and is a potential target for therapeutic intervention
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