Abstract
Hypovirus infection is known to reduce the pathogenicity of Cryphonectria parasitica, the causative agent of chestnut blight. Isoforms derived from a viral protein p48 have been discovered in host mitochondria and vesicles, which may contribute to virulence attenuation, as reported in earlier work using two-dimensional electrophoresis (2-DE). In this study, a total of 1739 fungal proteins were identified in fungal vesicles through Tandem Mass Tag (TMT)-based quantitative proteomics. The infection of CHV1-EP713 was associated with 75 up-regulated and 201 down-regulated proteins, predominantly involved in vesicular transport process and related cellular functions, including protein folding, membrane fusion, retrograde transport, autophagy, and ER stress responses. The down-regulation of calnexin, COPI, ArfGAP, importin-β, and Atg8 is consistent with impairments in protein folding, retrograde transport, and autophagy. Meanwhile, the up-regulation of clathrin, dynamin, Vps10p, HSP70, and t-SNAREs indicated enhanced trafficking to vacuoles and increased stress response activity. Overall, our findings indicate that hypoviral infection is associated with extensive alterations in the vesicular transport system of C. parasitica, likely mediated through changes in the abundance of multiple key protein regulators. These alterations may underlie attenuation of virulence by impacting crucial cellular processes.