Developing Antiviral Platforms And Assessing Interferon Against Kyasanur Forest Disease Virus

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Date
2015
Authors
Cook, Bradley William Michael
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Abstract
Kyasanur Forest disease virus (KFDV) of the Flaviviridae virus family has caused seasonal infections and periodic outbreaks in Karnataka, India. First identified in 1957, KFDV annually infects 400-500 people and has a fatality rate of 3-5%; there are no approved antivirals and the existing licensed vaccine’s effectiveness appears to be questionable. Many tools for KFDV research are limited and this work sought to develop methods for analysing antivirals, including interferon (IFN)-α/β species. The BHK-21 (ATCC) cell line allowed for high virus propagation and distinguishable cytopathic effects (CPE) for determining antiviral effectiveness. The additional tool of a reverse genetics system expressing a full-length cDNA KFDV genome with a GFP reporter failed to propagate, despite numerous GFP genome-insertion strategies. The clinically approved IFN-α2a or IFN-α2b has had variable success at combatting flavivirus diseases in people, especially in the immuno-compromised. The continued passaging of KFDV-infected cells with repeated IFN-α2a treatment did not eliminate KFDV and had little effect on infectious particle production. IFN-αspecies, αWA and α were more effective than IFN-α2a and α2b at reducing KFDV; however dose ranges indicated that while low concentrations could limit CPE, higher concentrations were needed to inhibit virion release. Avoidance of IFN-α/β through Jak/STAT signalling repression was attributed to the NS5 protein, specifically the RdRp domain based on data obtained with luciferase and vesicular stomatitis virus (VSV) recovery assays. However, the mechanism appears to act subsequently to STAT1/2 activation without NS5 binding to any Jak/STAT components. A non-infectious, replicative system serving as a platform for antiviral drug testing against KFDV in a high throughput manner could only provide luciferase signals when the NS proteins capable of driving replication, were supplied in cis (subgenomic) but not in trans (antigenome). To conclude, IFN-α species such as IFN-αWA may be better suited than the licensed IFN-α2a for treatment of KFDV infections; however, IFN effects appear to be subdued in vitro due to the actions of the NS5 protein. While IFN may not be a successful antiviral against KFDV, the work in this thesis provides a foundation for evaluating other potential anti-KFDV therapeutics.
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Keywords
Flavivirus, Tick-borne flavivirus, Interferon, Molecular biology, Antivirals, Hemorrhagic fever virus
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