Establishment of a Secretory Protein-Inducible CRISPR/Cas9 System for Nosema bombycis in Insect Cells

Gene editing techniques are widely and effectively used for the control of pathogens, but it is difficult to directly edit the genes of Microsporidia due to its unique spore wall structure. Innovative technologies and methods are urgently needed to break through this limitation of microsporidia therapies. Here, we establish a microsporidia-inducible gene editing system through core components of microsporidia secreted proteins, which could edit target genes after infection with microsporidia. We identified that Nosema bombycis NB29 is a secretory protein and found to interact with itself. The NB29-N3, which lacked the nuclear localization signal, was localized in the cytoplasm, and could be tracked into the nucleus after interacting with NB29-B. Furthermore, the gene editing system was constructed with the Cas9 protein expressed in fusion with the NB29-N3. The system could edit the exogenous gene EGFP and the endogenous gene BmRpn3 after overexpression of NB29 or infection with N. bombycis.