Evolution and inhibition of the FIKK effector kinase family in P. falciparum

Among the ~200 Plasmodium species that infect vertebrates, six infect humans. Of these, P. falciparum causes >95% of all ~500,000 annual fatalities. Phylogenetically, P. falciparum belongs to the Laverania subgenus, a group of Plasmodium species that infect great apes. Common to Laverania species is the family of FIKK kinases. One million years ago, a single FIKK kinase conserved in all Plasmodium species gained an export element in the Laverania subgenus and expanded into the family of ~20 atypical FIKK kinases, most of which are exported into the host cell. The fikk genes are conserved in syntenic loci across the Laverania , arguing for a rapid expansion controlling important functions in host cell remodelling and pathogenesis. We provide evidence that the FIKK paralogues evolved specific and mutually exclusive phosphorylation motif preferences, conserved across their Laverania orthologues, in a short evolutionary timeframe. Surprisingly, we find that FIKK13 has evolved exclusive tyrosine-phosphorylation preference, which was thought to be absent in Plasmodium species. Combining a crystal structure with AlphaFold2 predictions, we identify residues that determine kinase-specificity within the FIKK family in a fast-evolving flexible loop. Finally, we show that all expressed members of the FIKK kinase family can be chemically inhibited in vitro using a single compound. Such a pan-specific inhibitor of this kinase family important for virulence could reduce the ability of the parasite to gain escape-mutations and resistance. ### Competing Interest Statement The authors have declared no competing interest.