Abstract
Accurate cellular replication balances the biogenesis and turnover of complex structures. Apicomplexan parasites such as Plasmodium and Toxoplasma replicate by forming daughter cells within an intact mother cell, creating additional challenges to ensuring fidelity of division. Critical to these parasites’ infectivity is an intricate cytoskeleton structure called the apical complex. Before the daughter apical complex can be inserted into the plasma membrane, the maternal material must be turned over. We previously identified the kinase ERK7 as required for the maturation of the apical complex in Toxoplasma gondii. Here we define the Toxoplasma ERK7 interactome, and identify a putative E3 ligase, CSAR1, as the downstream effector responsible for the phenotype. Genetic disruption of CSAR1 fully suppresses loss of the apical complex upon ERK7 knockdown. Furthermore, we show that CSAR1 is normally responsible for turnover of maternal cytoskeleton during cytokinesis, and that its aberrant function is driven by a mislocalization from the parasite residual body to the maternal and daughter apical complexes. These data identify a protein homeostasis pathway critical for Toxoplasma replication and fitness and suggest an unappreciated role for the parasite residual body in compartmentalizing processes that threaten the fidelity of parasite development.
Competing Interest Statement
The authors have declared no competing interest.