Expression of Ac-PK2 protein from AcMNPV improved the progeny virus production via regulation of energy metabolism and protein synthesis

Abstract

Baculovirus encoded PK2 protein can increase viral fitness through inhibition of the eIF2α family kinases activity. Previous studies indicated that the virus might take over the control of cellular machinery post-infection, which would impose a high metabolic burden to infected insect cells. Here we showed that eIF2α phosphorylation decreased, with concomitant up-regulation of total and heterologous protein synthesis in AcMNPV-PK2-EGFP infected Sf9 cells and the larvae of Spodoptera exigua. Simultaneously, the lactic acid accumulation decreased and the uptake of glucose increased in AcMNPV-PK2-EGFP infected Sf9 cells. We proposed a model that Ac-PK2 protein overexpression would help protein synthesis by inhibiting eIF2α phosphorylation, which provided a more favorable scenario to support the efficient replication of the virus by re-directing the cellular metabolism toward ATP production. Finally, we confirmed that AcMNPV-PK2-EGFP could improve the production of progeny virus in infected Sf9 cells and enhance insecticidal activity against Spodoptera exigua larvae.