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GAPDH mediates plant reovirus-induced incomplete autophagy for persistent viral infection in leafhopper vector

Qian Chen, Yuele Zhang, Hengsong Yang, Xin Wang, Jiping Ren, Dongsheng Jia, Hongyan Chen, Tàiyún Wèi

2022Autophagy22 citationsDOIOpen Access PDF

Abstract

expression suppressed ATG8 lipidation, autophagosome formation, and efficient viral propagation. Thus, P2 could directly recruit the GAPDH-ATG4B complex to induce the formation of initial autophagosomes. Furthermore, such autophagosomes were modified to evade fusion with lysosomes for degradation, and thus could be persistently exploited by viruses to facilitate efficient propagation. GAPDH bound to ATG14 and inhibited the interaction of ATG14 with SNAP29, thereby preventing ATG14-SNARE proteins from mediating autophagosome-lysosome fusion. Taken together, these results highlight how RGDV activates GAPDH to initiate autophagosome formation and block autophagosome degradation, finally facilitating persistent viral propagation in insect vectors. The findings reveal a positive regulation of immune response in insect vectors during viral infection.

Topics & Concepts

BiologyAutophagosomeAutophagyCell biologyGlyceraldehyde 3-phosphate dehydrogenaseATG8VirologyViral envelopeVirusBiochemistryDehydrogenaseApoptosisEnzymeMosquito-borne diseases and controlInsect symbiosis and bacterial influencesAutophagy in Disease and Therapy
GAPDH mediates plant reovirus-induced incomplete autophagy for persistent viral infection in leafhopper vector | Litcius