Abstract
How a host metabolism responds to infection with insect viruses and how it relates to pathogenesis, is little investigated. Our previous study observed that Cricket paralysis virus (CrPV, Dicistroviridae) causes short term persistence in silkworm Bm5 cells before proceeding to acute infection. In this study, a metabolomics approach based on high resolution mass spectrometry was applied to investigate how a host metabolism is altered during the course of CrPV infection in Bm5 cells and which changes are characteristic for the transition from persistence to pathogenicity. We observed that CrPV infection led to significant and stage-specific metabolic changes in Bm5 cells. Differential metabolites abundance and pathway analysis further identified specific metabolic features at different stages in the viral life cycle. Notably, both glucose and glutamine levels significantly increased during CrPV persistent infection followed by a steep decrease during the pathogenic stages, suggesting that the central carbon metabolism was significantly modified during CrPV infection in Bm5 cells. In addition, dynamic changes in levels of polyamines were detected. Taken together, this study characterized for the first time the metabolic dynamics of CrPV infection in insect cells, proposing a central role for the regulation of both amino acid and carbohydrate metabolism during the period of persistent infection of CrPV in Bm5 cells.
Highlights
Viruses can have widespread impact on their hosts, yet viral infections are often persistent and nonlethal, making them difficult to understand and quantify [1,2,3]
The mechanisms for establishing persistent viral infections and their potential to evolve into pathogenesis are poorly understood
With our previously established model of Cricket Paralysis virus (CrPV)-Bm5 infection [24], we have investigated how a host metabolism is altered during the course of CrPV
Summary
Luo-Luo Wang 1 , Luc Swevers 2 , Caroline Rombouts 3,4 , Ivan Meeus 1 , Lieven Van Meulebroek 3 , Lynn Vanhaecke 3 and Guy Smagghe 1, *. Laboratory of Cell Biology & Histology, Department of Veterinary Sciences, Antwerp University, Faculty of Pharmaceutical, Biomedical and Veterinary Sciences, 2610 Wilrijk, Belgium. Received: 7 August 2019; Accepted: 11 September 2019; Published: 16 September 2019
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