A Whole-Genome RNA Interference Screen for Human Cell Factors Affecting Myxoma Virus Replication

  • Teferi W
  • Dodd K
  • Maranchuk R
  • et al.
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Abstract

Myxoma virus (MYXV) provides an important model for investigating host-pathogen interactions. Recent studies have also highlighted how mutations in transformed human cells can expand the host range of this rabbit virus. Although virus growth depends upon interactions between virus and host proteins, the nature of these interactions is poorly understood. To address this matter, we performed small interfering RNA (siRNA) screens for genes affecting MYXV growth in human MDA-MB-231 cells. By using siRNAs targeting the whole human genome (21,585 genes), a subset of human phosphatases and kinases (986 genes), and also a custom siRNA library targeting selected statistically significant genes (“hits”) and nonsignificant genes (“nonhits”) of the whole human genome screens (88 genes), we identified 711 siRNA pools that promoted MYXV growth and 333 that were inhibitory. Another 32 siRNA pools (mostly targeting the proteasome) were toxic. The overall overlap in the results was about 25% for the hits and 75% for the nonhits. These pro- and antiviral genes can be clustered into pathways and related groups, including well-established inflammatory and mitogen-activated protein kinase pathways, as well as clusters relating to β-catenin and the Wnt signaling cascade, the cell cycle, and cellular metabolism. The validity of a subset of these hits was independently confirmed. For example, treating cells with siRNAs that might stabilize cells in G 1 , or inhibit passage into S phase, stimulated MYXV growth, and these effects were reproduced by trapping cells at the G 1 /S boundary with an inhibitor of cyclin-dependent kinases 4/6. By using 2-deoxy- d -glucose and plasmids carrying the gene for phosphofructokinase, we also confirmed that infection is favored by aerobic glycolytic metabolism. These studies provide insights into how the growth state and structure of cells affect MYXV growth and how these factors might be manipulated to advantage in oncolytic virus therapy.

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Teferi, W. M., Dodd, K., Maranchuk, R., Favis, N., & Evans, D. H. (2013). A Whole-Genome RNA Interference Screen for Human Cell Factors Affecting Myxoma Virus Replication. Journal of Virology, 87(8), 4623–4641. https://doi.org/10.1128/jvi.02617-12

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