The Autophagy-Related Gene CpAtg4 Is Required for Fungal Phenotypic Traits, Stress Tolerance, and Virulence in Cryphonectria parasitica.

Autophagy is an evolutionarily ancient process wherein cells are able to break down intracellular contents to support normal physiology and development. Autophagosome formation is regulated by several different proteins, including the key cysteine protease Atg4. The contribution of Atg4 protein in the pathogenic fungus Cryphonectria parasitica, which causes blight in chestnut plants, has not been completely understood. In this context, we aimed to investigate the role of Atg4 during autophagy formation and their contribution to nonautophagic events in C. parasitica. By complementation assay, we determined that the CpAtg4 gene from C. parasitica was able to functionally complement the deletion of yeast Atg4. Using a yeast two-hybrid assay system, we confirmed that CpAtg4 and CpAtg8 directly interact with one another, and amino acids 377 to 409 of CpAtg4 were identified as being responsible for its binding with CpAtg8. The deletion mutant of CpAtg4 did not demonstrate positive monodansylcadaverine staining, which indicated that CpAtg4 is required for autophagy in C. parasitica. Moreover, the ΔCpAtg4 strain exhibited a decrease in aerial hyphae formation and sporulation, and reduction in virulence on apple and chestnut stem. The ΔCpAtg4 strains were also more sensitive to H2O2 and Congo red-induced stress. We further determined that amino acids 377 to 409 of CpAtg4 were essential for the function of CpAtg4 in vivo. Together, our findings indicated that CpAtg4 is required for the autophagy formation, fungal phenotypic traits, stress tolerance, and virulence in C. parasitica.

Prb1, a subtilisin-like protease, is required for virulence and phenotypical traits in the chestnut blight fungus.

Subtilisin-like proteases are widely distributed and reported to be required for virulence in pathogenic fungi. In chestnut blight fungus Cryphonectria parasitica, prb1, encoding a putative subtilisin-like protease, was expressed and recombinant Prb1 protein was shown to have a protease activity in vitro. prb1-deleted mutants exhibited reduced total protease activity by 60%. The Δprb1 mutants showed a phenotype of reduced aerial hyphae, lower level of sporulation, and a significant reduction in virulence. Additionally, site-directed mutagenesis of Prb1 protein revealed that D195, H227, and S393 are critical for C. parasitica Prb1 function in vivo. Transcriptional analysis showed that deletion of prb1 also reduced the transcript accumulation levels for genes encoding key components of the heterotrimeric G-protein signaling pathway, including cpga1, cpgb1, cpgc1, and ste12. Furthermore, deletion of prb1 results in the accumulation of autophagic bodies in the fungus. Taken together, our results showed that prb1-encoded protease functions in the regulation of virulence, phenotypical traits, and autophagy in C. parasitica.