Reduction of cell viability induced by IFN-alpha generates impaired data on antiviral assay using Hep-2C cells

Type I interferons (IFNs) exert an array of important biological functions on the innate immune response and has become a useful tool in the treatment of various diseases. An increasing demand in the usage of recombinant IFNs, mainly due to the treatment of chronic hepatitis C infection, augmented t...

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Published in:Journal of immunological methods 2013-12, Vol.400-401, p.97-105
Main Authors: de Oliveira, Edson R.A., Lima, Bruna M.M.P., de Moura, Wlamir C., de A. Nogueira, Ana Cristina M.
Format: Article
Language:English
Subjects:
Antiviral Agents - pharmacology
Antiviral assay
apoptosis
Apoptosis - drug effects
bioassays
Biological Assay - standards
biopharmaceuticals
cell cycle
Cell Cycle Checkpoints - drug effects
cell growth
Cell Line, Tumor
Cell Survival - drug effects
Cell viability
chronic hepatitis C
Cytopathogenic Effect, Viral - drug effects
cytopathogenicity
flow cytometry
growth retardation
Hep-2C
Hepacivirus - drug effects
Humans
IFN-alpha
innate immunity
interferon-alpha
Interferon-alpha - pharmacology
logit analysis
Quality Control
Reference Standards
STAT1 Transcription Factor - metabolism
viruses
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container_start_page 97
container_title Journal of immunological methods
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creator de Oliveira, Edson R.A.
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description Type I interferons (IFNs) exert an array of important biological functions on the innate immune response and has become a useful tool in the treatment of various diseases. An increasing demand in the usage of recombinant IFNs, mainly due to the treatment of chronic hepatitis C infection, augmented the need of quality control for this biopharmaceutical. A traditional bioassay for IFN potency assessment is the cytopathic effect reduction antiviral assay where a given cell line is preserved by IFN from a lytic virus activity using the cell viability as a frequent measure of end point. However, type I IFNs induce other biological effects such as cell-cycle arrest and apoptosis that can influence directly on viability of many cell lines. Here, we standardized a cytopathic effect reduction antiviral assay using Hep-2C cell/mengovirus combination and studied a possible impact of cell viability variations caused by IFN-alpha 2b on responses generated on the antiviral assay. Using the four-parameter logistic model, we observed less correlation and less linearity on antiviral assay when responses from IFN-alpha 2b 1000IU/ml were considered in the analysis. Cell viability tests with MTT revealed a clear cell growth inhibition of Hep-2C cells under stimulation with IFN-alpha 2b. Flow cytometric cell-cycle analysis and apoptosis assessment showed an increase of S+G2 phase and higher levels of apoptotic cells after treatment with IFN-alpha 2b 1000IU/ml under our standardized antiviral assay procedure. Considering our studied dose range, we also observed strong STAT1 activation on Hep-2C cells after stimulation with the higher doses of IFN-alpha 2b. Our findings showed that the reduction of cell viability driven by IFN-alpha can cause a negative impact on antiviral assays. We assume that the cell death induction and the cell growth inhibition effect of IFNs should also be considered while employing antiviral assay protocols in a quality control routine and emphasizes the importance of new approaches for IFN potency determination.
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A traditional bioassay for IFN potency assessment is the cytopathic effect reduction antiviral assay where a given cell line is preserved by IFN from a lytic virus activity using the cell viability as a frequent measure of end point. However, type I IFNs induce other biological effects such as cell-cycle arrest and apoptosis that can influence directly on viability of many cell lines. Here, we standardized a cytopathic effect reduction antiviral assay using Hep-2C cell/mengovirus combination and studied a possible impact of cell viability variations caused by IFN-alpha 2b on responses generated on the antiviral assay. Using the four-parameter logistic model, we observed less correlation and less linearity on antiviral assay when responses from IFN-alpha 2b 1000IU/ml were considered in the analysis. Cell viability tests with MTT revealed a clear cell growth inhibition of Hep-2C cells under stimulation with IFN-alpha 2b. Flow cytometric cell-cycle analysis and apoptosis assessment showed an increase of S+G2 phase and higher levels of apoptotic cells after treatment with IFN-alpha 2b 1000IU/ml under our standardized antiviral assay procedure. Considering our studied dose range, we also observed strong STAT1 activation on Hep-2C cells after stimulation with the higher doses of IFN-alpha 2b. Our findings showed that the reduction of cell viability driven by IFN-alpha can cause a negative impact on antiviral assays. We assume that the cell death induction and the cell growth inhibition effect of IFNs should also be considered while employing antiviral assay protocols in a quality control routine and emphasizes the importance of new approaches for IFN potency determination.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>24211646</pmid><doi>10.1016/j.jim.2013.10.011</doi><tpages>9</tpages></addata></record>
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source ScienceDirect Journals
subjects Antiviral Agents - pharmacology
Antiviral assay
apoptosis
Apoptosis - drug effects
bioassays
Biological Assay - standards
biopharmaceuticals
cell cycle
Cell Cycle Checkpoints - drug effects
cell growth
Cell Line, Tumor
Cell Survival - drug effects
Cell viability
chronic hepatitis C
Cytopathogenic Effect, Viral - drug effects
cytopathogenicity
flow cytometry
growth retardation
Hep-2C
Hepacivirus - drug effects
Humans
IFN-alpha
innate immunity
interferon-alpha
Interferon-alpha - pharmacology
logit analysis
Quality Control
Reference Standards
STAT1 Transcription Factor - metabolism
viruses
title Reduction of cell viability induced by IFN-alpha generates impaired data on antiviral assay using Hep-2C cells
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