Structural insights into trypanosomatid Mnk kinase orthologues (kMnks) suggest altered mechanism in the kinase domain.

Abstract

Mitogen-activated protein kinase (MAPK) interacting protein kinases (Mnk1 and Mnk2) mediated phosphorylation of the eukaryotic initiation factor eIF4E is an important translation initiation control, in Mnk-mediated oncogenic activity and other disease conditions. Thus, Mnk kinases are an important target for therapy. Trypanosomatids are a class of kinetoplastids, some of which are protozoan parasites and cause diseases in humans. While protein translation initiation is well understood in eukaryotes and prokaryotes, there is a lack of sufficient structural information of this process in trypanosomatids. Here, we report that trypanosomatids have one orthologue of Mnk kinase with low overall sequence homology but high homology in the kinase domain and an additional C-terminal domain containing putative calmodulin binding site(s). We show that while many of the domains and motifs are conserved, homology modeling/structure prediction, docking analysis and molecular dynamics simulation studies suggest that trypanosomatid kMnk kinases, kinase domains are present in DFG-in conformation as opposed to the auto-inhibited DFD-out conformation of un-phosphorylated human Mnk1. Furthermore, we observed that several regulatory features are different in trypanosomatid kMnk kinases. Our study indicates that mechanism and regulation in the kinase domain of trypanosomatid kMnks are likely to be altered, and that they can be important drug targets.