Abstract
BackgroundThe traditional methods, plaque assays and immuno-focus assays, used to titrate infectious dengue virus (DENV) particles are time consuming and labor intensive. Here, we developed a DENV protease activity detection system (DENPADS) to visualize DENV infection in cells based on dengue protease activity.Methodology/Principal findingsDengue NS3 protease cleaves NS4B-NS5. BHK-21 cells stably expressing the sensor module comprising DENV-2 NS4 and the 10 amino-terminal amino acids of NS5 (N10NS5) fused with the SV40 nuclear localization signal (NLS) and Cre recombinase (Cre), were generated. Cre is constrained outside the nucleus in the absence of NS3 activity but translocates into the nucleus through NS4B-NS5 cleavage when cells are infected with DENV. Nuclear translocation of Cre can trigger the reporter system, which contains a cis-loxP-flanked mCherry with three continuous stop codons following an SV40 polyA tail cDNA upstream of EGFP or mHRP cDNA. Our results show that DENPADS is an efficient and accurate method to titrate 4 DENV serotypes in 24 hours. Compared with current virus titration methods, the entire process is easy to perform, and the data are easily acquired.Conclusions/SignificanceIn this study, we demonstrate that DENPADS can be used to detect dengue viral infection through a fluorescence switch or HRP activity in the infected cells. This approach is sensitive with less incubation time and labor input. In addition, DENPADS can simultaneously evaluate the efficacy and cytotoxicity of potential anti-DENV candidates. Overall, DENPADS is a useful tool for dengue research.
Highlights
Dengue virus (DENV) comprises 4 serotypes and has caused serious public health problems on a global scale [1]
We employed DENV NS3 protease activity to trigger a Cre-mediated reporter system. We show that this DENV protease activity detection system (DENPADS) is superior to traditional methods for determining dengue virus titers
These results suggest that Cre was normally localized in the endoplasmic reticulum (ER) through fusion to the C terminus of NS4B-N10NS5 until it was freed by the viral protease NS2B/NS3
Summary
Dengue virus (DENV) comprises 4 serotypes and has caused serious public health problems on a global scale [1]. Obtaining titration results from a standard plaque assay takes a long time (3 to >12 days) [3,4,5,6] Another endpoint dilution assay is based on observing the cytopathic effect (CPE) after infection. QRT-PCR results determine gene copy numbers, which do not completely represent the infective particle number, and accurate titers of infectious virus particles are not guaranteed Other methods, such as flow cytometry, have been used to measure DENV titers [18]. The traditional methods, plaque assays and immuno-focus assays, used to titrate infectious dengue virus (DENV) particles are time consuming and labor intensive. We developed a DENV protease activity detection system (DENPADS) to visualize DENV infection in cells based on dengue protease activity
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