Rapid Identification of Coronavirus Replicase Inhibitors Using a Selectable Replicon RNA

Overview

Journal J Gen Virol

Specialty Microbiology

Date 2004 May 29

PMID 15166457

Citations 50

Authors

Tobias Hertzig

Elke Scandella

Barbara Schelle

John Ziebuhr

Stuart G Siddell

Burkhard Ludewig

Volker Thiel

Affiliations

Soon will be listed here.

Abstract

A previously unknown coronavirus (CoV) is the aetiological agent causing severe acute respiratory syndrome (SARS), for which an effective antiviral treatment is urgently needed. To enable the rapid and biosafe identification of coronavirus replicase inhibitors, we have generated a non-cytopathic, selectable replicon RNA (based on human CoV 229E) that can be stably maintained in eukaryotic cells. Most importantly, the replicon RNA mediates reporter gene expression as a marker for coronavirus replication. We have used a replicon RNA-containing cell line to test the inhibitory effect of several compounds that are currently being assessed for SARS treatment. Amongst those, interferon-alpha displayed the strongest inhibitory activity. Our results demonstrate that coronavirus replicon cell lines provide a versatile and safe assay for the identification of coronavirus replicase inhibitors. Once this technology is adapted to SARS-CoV replicon RNAs, it will allow high throughput screening for SARS-CoV replicase inhibitors without the need to grow infectious SARS-CoV.

Citing Articles

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An RNA replicon system to investigate promising inhibitors of feline coronavirus.

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Reverse Genetic Assessment of the Roles Played by the Spike Protein and ORF3 in Porcine Epidemic Diarrhea Virus Pathogenicity.

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Viral Replicon Systems and Their Biosafety Aspects.

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