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Vaccinia virus requires glutamine but not glucose for efficient replication.

Journal of virology (2014-02-07)
Krystal A Fontaine, Roman Camarda, Michael Lagunoff
RÉSUMÉ

Viruses require host cell metabolism to provide the necessary energy and biosynthetic precursors for successful viral replication. Vaccinia virus (VACV) is a member of the Poxviridae family, and its use as a vaccine enabled the eradication of variola virus, the etiologic agent of smallpox. A global metabolic screen of VACV-infected primary human foreskin fibroblasts suggested that glutamine metabolism is altered during infection. Glutamine and glucose represent the two main carbon sources for mammalian cells. Depriving VACV-infected cells of exogenous glutamine led to a substantial decrease in infectious virus production, whereas starving infected cells of exogenous glucose had no significant impact on replication. Viral yield in glutamine-deprived cells or in cells treated with an inhibitor of glutaminolysis, the pathway of glutamine catabolism, could be rescued by the addition of multiple tricarboxylic acid (TCA) cycle intermediates. Thus, VACV infection induces a metabolic alteration to fully rely on glutamine to anaplerotically maintain the TCA cycle. VACV protein synthesis, but not viral transcription, was decreased in glutamine-deprived cells, which corresponded with a dramatic reduction in all VACV morphogenetic intermediates. This study reveals the unique carbon utilization program implemented during poxvirus infection and provides a potential metabolic pathway to target viral replication. Viruses are dependent on the metabolic machinery of the host cell to supply the energy and molecular building blocks needed for critical processes including genome replication, viral protein synthesis, and membrane production. This study investigates how vaccinia virus (VACV) infection alters global cellular metabolism, providing the first metabolomic analysis for a member of the poxvirus family. Unlike most viruses examined to date, VACV does not activate glycolysis, and exogenous glucose is not required for maximal virus production. Instead, VACV requires exogenous glutamine for efficient replication, and inhibition of glutamine metabolism effectively blocks VACV protein synthesis. This study defines a major metabolic perturbation essential for the replication of a poxvirus and may lead to the discovery of novel antiviral therapies based on metabolic inhibitors.

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