The secretory protein COA1 enables Metarhizium robertsii to evade insect immune recognition during cuticle penetration
Qiangqiang Zhang, Xuanlian Wei, Weiguo Fang, Xuenian Huang, Xing Zhang
Abstract
The interplay between the insect immune system and entomopathogenic fungi during cuticle penetration is not yet fully understood. Here, we show that a secretory protein COA1 (coat of appressorium 1) from Metarhizium robertsii, an entomopathogenic fungus causing diseases in a wide range of insects, is required to avoid host immune recognition during cuticle penetration. COA1 is highly expressed on the cuticle and translocated to the cell surface, where it directly binds with and masks carbohydrates of the fungal cell wall to avoid provoking the host’s intense immune response. Deletion of Coa1 results in a robust immune response, leading to a reduction in bacterial load in both the gut and hemocoel and ultimately attenuating fungal virulence. Our work reveals a novel cell surface protein indispensable for fungal pathogenicity via masking cell wall carbohydrates to avert a hypersensitive response from the host. The insect pathogenic fungus Metarhizium robertsii secretes a small protein, COA1, to mask the antigenic structural components of the cell wall, thereby evading insect immune recognition during the penetration of the insect cuticle.