Prophylactic and Therapeutic Effects of Small Interfering RNA Targeting SARS-coronavirus

Overview

Journal Antivir Ther

Publisher Sage Publications

Specialties Infectious Diseases
Microbiology

Date 2004 Jul 21

PMID 15259899

Citations 58

Authors

Bo-Jian Zheng

Yi Guan

Qingquan Tang

Cheng Du

Frank Y Xie

Ming-Liang He

Kwok-Wah Chan

Kin-Ling Wong

Eric Lader

Martin C Woodle

Patrick Y Lu

Baojian Li

Nanshan Zhong

Affiliations

Soon will be listed here.

Abstract

Objectives: To identify and characterize the siRNA duplexes that are effective for inhibition of SARS-CoV infection and replication in the non-human primate cells. This in vitro study will serve as the foundation for development of novel anti-SARS therapeutics.

Methods: 48 siRNA sequences were designed for targeting regions throughout entire SARS-CoV genome RNA including open-reading frames for several key proteins. Chemically synthesized siRNA duplexes were transfected into foetal rhesus kidney (FRhK-4) cells prior to or after SARS-CoV infection. The inhibitory effects of the siRNAs were evaluated for reductions of intracellular viral genome copy number and viral titres in the cell culture medium measured by Q-RT-PCR and CPE-based titration, respectively. Four siRNA duplexes were found to achieve potent inhibition of SARS-CoV infection and replication. A prolonged prophylactic effect of siRNA duplexes with up to 90% inhibition that lasted for at least 72 h was observed. Combination of active siRNA duplexes targeting different regions of the viral genome resulted in therapeutic activity of up to 80% inhibition.

Conclusion: Chemically synthesized siRNA duplexes targeting SARS-CoV genomic RNA are potent agents for inhibition of the viral infection and replication. The location effects of siRNAs were revealed at both genome sequence and open-reading frame levels. The rapid development of siRNA-based SARS-CoV inhibitors marked a novel approach for combating newly emergent infectious diseases.

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