Identification of Toxoplasma calcium-dependent protein kinase 3 as a stress-activated elongation factor 2 kinase

Toxoplasma gondii is an obligate intracellular parasite whose tachyzoite form causes disease via a lytic growth cycle. Its metabolic and cellular pathways are primarily designed to ensure parasite survival within a host cell. But during its lytic cycle, tachyzoites are exposed to the extracellular milieu and prolonged exposure requires activation of stress response pathways that include reprogramming the parasite proteome. Regulation of protein synthesis is therefore important for extracellular survival. We previously reported that in extracellularly stressed parasites, the elongation phase of protein synthesis is regulated by the Toxoplasma oxygen-sensing protein, PHYb. PHYb acts by promoting the activity of elongation factor eEF2, which is a GTPase that catalyzes the transfer of the peptidyl-tRNA from the A site to the P site of the ribosome. In the absence of PHYb, eEF2 is hyper-phosphorylated, which inhibits eEF2 from interacting with the ribosome. eEF2 kinases are atypical calcium-dependent kinases and BLAST analyses revealed the parasite kinase, CDPK3, as the most highly homologous to the Saccharomyces cerevisiae eEF2 kinase, RCK2. In parasites exposed to extracellular stress, loss of CDPK3 leads to decreased eEF2 phosphorylation and enhanced rates of elongation. Furthermore, co-immunoprecipitation studies revealed that CDPK3 and eEF2 interact in stressed parasites. Since CDPK3 and eEF2 normally localize to the plasma membrane and cytosol, respectively, we investigated how the two can interact. We report that under stress conditions, CDPK3 is not N-myristoylated likely leading to its cytoplasmic localization. In summary, we have identified a novel function for CDPK3 as the first protozoan extracellular stress-induced eEF2 kinase. IMPORTANCE: Although it is an obligate intracellular parasite, Toxoplasma must be able to survive in the extracellular environment. Our previous work indicated that ensuring that elongation continues during protein synthesis is part of this stress response and that this is due to preventing phosphorylation of elongation factor 2. But the identity of the eEF2 kinase has remained unknown in Toxoplasma and other protozoan parasites. Here, we identify CDPK3 as the first protozoan eEF2 kinase and demonstrate that it is part of a stress response initiated when parasites are exposed to extracellular stress. We also demonstrate that CDPK3 engages eEF2 as a result of its relocalization from the plasma membrane to the cytosol.