AoATG5 plays pleiotropic roles in vegetative growth, cell nucleus development, conidiation, and virulence in the nematode-trapping fungus Arthrobotrys oligospora.

Autophagy is an evolutionarily conserved process in eukaryotes, which is regulated by autophagy-related genes (ATGs). Arthrobotrys oligospora is a representative species of nematode-trapping (NT) fungi that can produce special traps for nematode predation. To elucidate the biological roles of autophagy in NT fungi, we characterized an orthologous Atg protein, AoAtg5, in A. oligospora. We found that AoATG5 deletion causes a significant reduction in vegetative growth and conidiation, and that the transcript levels of several sporulation-related genes were significantly downregulated during sporulation stage. In addition, the cell nuclei were significantly reduced in the ΔAoATG5 mutant, and the transcripts of several genes involved in DNA biosynthesis, repair, and ligation were significantly upregulated. In ΔAoATG5 mutants, the autophagic process was significantly impaired, and trap formation and nematocidal activity were significantly decreased. Comparative transcriptome analysis results showed that AoAtg5 is involved in the regulation of multiple cellular processes, such as autophagy, nitrogen metabolism, DNA biosynthesis and repair, and vesicular transport. In summary, our results suggest that AoAtg5 is essential for autophagy and significantly contributes to vegetative growth, cell nucleus development, sporulation, trap formation, and pathogenicity in A. oligospora, thus providing a basis for future studies focusing on related mechanisms of autophagy in NT fungi.