Prenyltransferases act essential roles in the prenylation modification, which is significant for proteins, like small GTPases to execute various important activities in Toxoplasma gondii (T.gondii). The structures and partial functions of prenyltransferases (FTase, GGTase-I, and GGTase-II) in prenylation process have been dissected in T. gondii. However, the cellular effects of prenyltransferases on type 2-ME49 strain of Toxoplasma are largely unknown. To address this gap, CRISPR/Cas9-based gene-editing technology was employed to construct conditional knockdown strains of prenyltransferases in ME49 strain. Subsequent observation of ingestion ability of host cytosolic molecules (e.g, green fluorescent protein [GFP]) and status of secretory vacuolar sorting post-knockdown of prenyltransferases revealed significant findings. Our study demonstrated that degradation of FTase and GGTase-II notably affected the trafficking of endocytic GFP and vacuolar secretory trafficking to rhoptry bulb. Additionally, depletion of GGTase-II led to disordered endoplasmic reticulum and microtubules, as well as impaired gliding motility. The integrity of mitochondrion was damaged after degradation of GGTase-I. These findings underscore the critical functions of prenyltransferases in endocytosis and secretory vacuolar sorting in ME49 strain of T. gondii, thereby enhancing our understanding of prenyltransferases as potential drug targets.
Keywords: ME49; Protein prenylation; endocytosis; prenyltransferases; secretory vacuolar sorting; toxoplasma gondii.