Abstract
Influenza A and B viruses (IAV and IBV, respectively) cause annual seasonal human respiratory disease epidemics. In addition, IAVs have been implicated in occasional pandemics with inordinate health and economic consequences. Studying influenza viruses in vitro or in vivo requires the use of laborious secondary methodologies to identify infected cells. To circumvent this requirement, replication-competent infectious influenza viruses expressing an easily traceable fluorescent reporter protein can be used. Timer is a fluorescent protein that undergoes a time-dependent color emission conversion from green to red. The rate of spectral change is independent of Timer protein concentration and can be used to chronologically measure the duration of its expression. Here, we describe the generation of replication-competent IAV and IBV where the viral non-structural protein 1 (NS1) was fused to the fluorescent dynamic Timer protein. Timer-expressing IAV and IBV displayed similar plaque phenotypes and growth kinetics to wild-type viruses in tissue culture. Within infected cells, Timer’s spectral shift can be used to measure the rate and cell-to-cell spread of infection using fluorescent microscopy, plate readers, or flow cytometry. The progression of Timer-expressing IAV infection was also evaluated in a mouse model, demonstrating the feasibility to characterize IAV cell-to-cell infections in vivo. By providing the ability to chronologically track viral spread, Timer-expressing influenza viruses are an excellent option to evaluate the in vitro and in vivo dynamics of viral infection.
Highlights
IAV and IBV infections are an important cause of human deaths in the United States (US) with approximately 3,700 fatalities in 2013 [1] and upwards of 500,000 worldwide [2]
It has been previously shown that a replication-competent IAV expressing a fluorescent protein can be generated by fusing the reporter to non-structural protein 1 (NS1) [13, 17, 21,22,23,24,25]
The strategy allows for collinear expression of NS1-Timer and nuclear export protein (NEP) (Fig 1B) in the background of recombinant IAV (A/California/04_NYCIE_E3/2009, pH1N1) and IBV (B/Brisbane/60/2008) Timerexpressing viruses
Summary
IAV and IBV infections are an important cause of human deaths in the United States (US) with approximately 3,700 fatalities in 2013 [1] and upwards of 500,000 worldwide [2]. In the 20th century, three IAV pandemics occurred with the most devastating one in 1918, known as Spanish flu, that killed between 30–. It has been estimated that the 2009 pandemic H1N1 IAV infected over 60 million people resulting in approximately 275,000 hospitalizations and 12,000 deaths in the US alone [4]. It is estimated that an excess of 200,000 deaths occurred from influenza and secondary complications during this pandemic [5]. In 2011, 38% of all influenza-related childhood fatalities in the US were due to IBVs [6]
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