X-ray crystallographic studies of Plasmodium falciparum adenylate kinases

Abstract

Malaria is a global health concern accounting for approximately 219 million cases and an estimated 660 000 deaths in 2010. The most fatal strain of malarial parasite, Plasmodium falciparum is found to contain 3 Adenylate Kinases (PfAK1, PfAK2 and PfGAK). Adenylate Kinases are important enzymes that essentially catalyze and regulate energy metabolism processes. PfAK1 and PfAK2 catalyze the reversible MG2+ reaction ATP + AMP ←→ 2ADP whereas, the PfGAK catalyzes the Mg2+ dependent reaction GTP+AMP ←→ ADP+GDP. Of all malarial strains, only the Plasmodium falciparum Adenylate Kinase 2 (PfAK2) was found to contain a N-myristoylation sequence and subsequently formed a stable heterodimer with Plasmodium falciparum N-myristoyl transferase (PfNMT). The myristoylation of PfAK2 by PfNMT is believed to help transport PfAK2 to the parasitophorous vacuole membrane (PVM) so that the enzyme can perform its essential functions. With these enzymes being key components in the parasite’s survival, the structural study of these enzymes would provide a lot of insight into targeting these proteins for drug design that would effectively kill the parasite without affecting the human host. In this study, PfAK1 was able to be expressed, purified and crystallized with a dataset collected at 4.3Å. PfGAK was expressed and purified. A GTP analogue called GP5A was used to soak the purified PfGAKand the PfGAK bound to GP5A was crystallized and diffracted. Moreover, PfAK2 and PfNMT was successfully expressed and co-purified. The purified PfAK2-PfNMT heterodimer are undergoing crystal screening for possible crystallization conditions.