Targeted overexpression of cyclic AMP-dependent protein kinase subunit in Toxoplasma gondii promotes replication and virulence in host cells

Abstract Toxoplasma gondii ( T. gondii ) is one of the most common parasite that can infect almost any warm-blooded animals including humans. The cyclic nucleotide-dependent protein kinase (PKA) regulates a spectrum of intracellular signal pathways in many organisms. Protein kinase catalytic subunit (PKAC) is the core of the whole protein, and plays an important role in the life cycle of T.gondii . Here, T.gondii PKAC ( Tg PKAC) overexpression strain ( Tg PKAC-OE) was constructed. The growth of the Tg PKAC-OE, RH △Ku80 , and Tg PKAC inhibition strains ( Tg PKAC-H89) were analysed by SYBR-green real-time PCR, and the ultrastructure was observed by transmission electron microscopy. The survival rate in mice was also recorded to analyse the virulence of the parasites. We also investigated the subcellular localization of Tg PKAC in Vero cells by laser scanning microscope. We found that Tg PKAC-OE strain exhibited obviously increased growth rate in Vero cells in vitro , and infected mice survived for a shorter time compared to wild type strain. Ultrastructural analysis found more autophagosomes-like structures in Tg PKAC-H89 parasite compared to RH △Ku80 strain, and the relative expression level of Toxoplasma gondii autophagy-related protein (ATG8) in Tg PKAC-H89 parasite was higher than wild type parasite. Laser confocal results showed that Tg PKAC was mainly expressed in the cytoplasm of Vero cells. In conclusion, we hypothesized that inhibition of Tg PKAC could cause autophagy of Toxoplasma gondii and then influence the replication of the parasite. Tg PKAC plays an important role in parasite virulence in vivo , and the subcellular localization was successfully detected in Vero cells. Our data will provide a basis for further study of Tg PKAC function and help screen drug targets of T. gondii .