Variation in Bombyx mori immune response against fungal pathogen Beauveria bassiana with variability in cell wall β‐1,3‐glucan

Abstract

AbstractEntomopathogenic fungi are protected by a cell wall with dynamic structure for adapting to various environmental conditions. β‐1,3‐Glucan recognition proteins activate the innate immune system of insects by recognizing surface molecules of fungi. However, the associations between pathogenicity and the different components of entomopathogenic fungal cell walls remain unclear. Three Beauveria bassiana strains were selected that have significantly differing virulence against Bombyx mori. The molecular mechanisms underlying the immune response in B. mori were investigated using RNA sequencing, which revealed differences in the immune response to different B. bassiana strains at 12 h post‐infection. Immunofluorescence assays revealed that β‐1,3‐glucan content had an opposite trend to that of fungal virulence. β‐1,3‐Glucan injection upregulated BmβGRP4 expression and significantly reduced the virulence of the high‐virulence strain but not that of the medium‐virulence or low‐virulence strains. BmβGRP4 silencing in B. mori with RNA interference resulted in the opposite virulence pattern, indicating that the virulence of B. bassiana was affected by the cell walls’ content of β‐1,3‐glucan, which could be recognized by BmβGRP4. Furthermore, interference with the gene CnA (calcineurin catalytic A subunit) involved in β‐1,3‐glucan synthesis eliminated differences in virulence between B. bassiana strains. These results indicate that strains of a single species of pathogenic fungi that have differing cell wall components are recognized differently by the innate immune system of B. mori.