1C) In the absence of compound (Fig 1C-①) or in presence of an

1C). In the absence of compound (Fig. 1C-①) or in presence of an inactive compound (Fig. 1C-②) infection with gt2a HCVcc induced RFP-NLS-IPS reporter cells to have red signal Neratinib supplier in the nuclei while the

GFP replicon displays a green signal in the cytoplasm. Cross-genotypic inhibitors prevent both gt1 and gt2 HCV RNA replication, therefore the green signal from gt1 replicon would disappear and the red signal can be detected in the cytoplasm exclusively (Fig. 1C-③); whereas a gt1 specific inhibitor would lead to a decreased GFP expression in replicon cells and nuclear RFP localization in RFP-NLS-IPS reporter cells (Fig. 1C-④). Lack of RFP translocation but maintenance of GFP signal would either mean a gt2 specific inhibitor of replication (Fig. 1C-⑤) or a block at the viral entry level (Fig. 1C-⑥), which can be tested in a secondary assay by infection with a HCV gt 1a/2a chimera. If, later steps in the viral

life cycle are targeted preventing the release of infectious particles, primarily infected RFP-NLS-IPS cells would initially be infected and the translocation of RFP into the nucleus can be observed (Fig. 1C-⑦). Production of progeny DNA Synthesis inhibitor virus and spread will, however, be inhibited resulting in a mixed pattern within the RFP-NLS-IPS cells with two translocation positive cells in close proximity (‘couple phenotype’) which is the result of primarily infection and cell division during the 72 h assay period (Fig. 1B). To analyze the data, in-house image analysis algorithms were developed for the detection and quantification of certain cellular phenotypes (Fig. 2).

Images from five fields per well were taken in three different channels. The algorithm identifies nuclei Vildagliptin stained with Hoechst (blue channel) and determines the total number of cells, which along with nuclear size and intensity were used as indicators of compound induced cytotoxicity (Fig 2B). In the green channel, GFP fluorescence intensity, which is proportional to HCV gt1b RNA replication, is measured and expressed as percentage of GFP positive cells. In the red channel, the software determines the number of RFP-NLS-IPS expressing cells by RFP fluorescence intensity in either the nucleus or cytoplasm, and calculates the percentage of RFP translocation positive cells as a marker of HCVcc gt2 infection (Fig. 2). The assay was validated by 10-points dose response curve (DRC) analysis using NM-107 (2′-C-methylcytidine) (Bassit et al., 2008), a nucleoside NS5B inhibitor with cross-genotypic activity, and A-837093 (Lu et al., 2007), a non-nucleoside NS5B inhibitor specific for gt1 (Fig. 3). As expected, increasing concentrations of NM-107, decreased both NS5A-GFP expression in the cytoplasm (gt1b replicon) as well as RFP-NLS translocation into the nuclei (gt2a HCVcc infection) (Fig. 3A). This can be quantified by image processing as described in Fig. 2.

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