An in vivo fitness gene of Toxoplasma , MIC11, is essential for PLP1-mediated egress from host cells

After invasion and replication, intracellular pathogens must egress from infected host cells . Toxoplasma gondii facilitates this process by permeabilizing host cells by releasing perforin-like protein 1 (PLP1) through induced microneme secretion. However, the precise mechanism of host cell permeabilization remains enigmatic. Here, we identified the secretory microneme protein MIC11 as a key factor for membrane disruption. A CRISPR-based in vivo screen revealed several genes including MIC11 as an essential gene for virulence. Deletion of MIC11 resulted in severe defects in both membrane rupture and egress. Scanning mutagenesis identified functional motifs in MIC11, and mechanistic analyses demonstrated that MIC11 directly associates with PLP1, regulating its activity in membrane disruption. The MIC11 paralogue MIC22 compensated for MIC11 deletion, suggesting a conserved mechanism of egress in the feline-restricted stages of T. gondii . The discovery of MIC11 advances the understanding of how parasites disrupt host cells to facilitate rapid egress and successful dissemination.