Visualizing infection spread: Dual-color fluorescent reporting of virus-host interactions.

Autor: Swick, Adam, Baltes, Ashley, Yin, John
Zdroj: Biotechnology & Bioengineering; Jun2014, Vol. 111 Issue 6, p1200-1209, 10p
Abstrakt: ABSTRACT Although the molecular mechanisms by which host cells defend themselves against viral infection have been studied in great depth, and countermeasures viruses employ to suppress such defensive responses have been widely documented, relatively little attention has been devoted toward elucidating how such interactions between virus and host are resolved over multiple rounds of infection. Here, we describe the design, synthesis, and validation of a dual-color fluorescent reporter system to study how viral infections spread through a host cell monolayer and how the cellular innate immune system mounts an antiviral response. We employed recombinant, red fluorescent protein expressing mutants of a prototypical RNA virus, vesicular stomatitis virus to enable identification and tracking of infected cells. Further, we generated stable reporter cells that use green fluorescent protein to report on the expression of IFIT2, an interferon stimulated gene involved in the interference of viral protein translation, and a marker of antiviral defense activation. The presence of the fluorescent protein reporters had minimal effects on the normal behavior of the cells or viruses. Moreover, expression of the virus and cell reporters correlated with the kinetics of viral replication and activation of an anti-viral response, respectively. This two-color system enabled us to track and quantify in live cells how viral replication and activation of host defensive responses play out over multiple rounds of infection. Initial study of propagating infections demonstrated that antiviral activation over multiple rounds was critical for slowing and ultimately halting the spread of infection. Biotechnol. Bioeng. 2014;111: 1200-1209. © 2013 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index
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