Literature DB >> 19446595

Chimeric alphavirus vaccine candidates protect mice from intranasal challenge with western equine encephalitis virus.

Svetlana Atasheva1, Eryu Wang, A Paige Adams, Kenneth S Plante, Sai Ni, Katherine Taylor, Mary E Miller, Ilya Frolov, Scott C Weaver.   

Abstract

We developed two types of chimeric Sindbis virus (SINV)/western equine encephalitis virus (WEEV) alphaviruses to investigate their potential use as live virus vaccines against WEE. The first-generation vaccine candidate, SIN/CO92, was derived from structural protein genes of WEEV strain CO92-1356, and two second-generation candidates were derived from WEEV strain McMillan. For both first- and second-generation vaccine candidates, the nonstructural protein genes were derived from SINV strain AR339. Second-generation vaccine candidates SIN/SIN/McM and SIN/EEE/McM included the envelope glycoprotein genes from WEEV strain McMillan; however, the amino-terminal half of the capsid, which encodes the RNA-binding domain, was derived from either SINV or eastern equine encephalitis virus (EEEV) strain FL93-939. All chimeric viruses replicated efficiently in mammalian and mosquito cell cultures and were highly attenuated in 6-week-old mice. Vaccinated mice developed little or no detectable disease and showed little or no evidence of challenge virus replication; however, all developed high titers of neutralizing antibodies. Upon intranasal challenge with high doses of virulent WEEV strains, mice vaccinated with >or=10(5)PFU of SIN/CO92 or >or=10(4)PFU of SIN/SIN/McM or SIN/EEE/McM were completely protected from disease. These findings support the potential use of these live-attenuated vaccine candidates as safe and effective vaccines against WEE.

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Year:  2009        PMID: 19446595      PMCID: PMC3238384          DOI: 10.1016/j.vaccine.2009.05.011

Source DB:  PubMed          Journal:  Vaccine        ISSN: 0264-410X            Impact factor:   3.641


  27 in total

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3.  Complete genomic RNA sequence of western equine encephalitis virus and expression of the structural genes.

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  12 in total

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3.  Design of chimeric alphaviruses with a programmed, attenuated, cell type-restricted phenotype.

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4.  Conservation of a packaging signal and the viral genome RNA packaging mechanism in alphavirus evolution.

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9.  Designing multivalent immunogens for alphavirus vaccine optimization.

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10.  Human-like antibodies neutralizing Western equine encephalitis virus.

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