Rift Valley fever virus is transmitted mainly by mosquitoes and causes disease in humans and animals throughout Africa and the Arabian Peninsula. The impact of disease is large in terms of human illness and mortality, and economic impact on the livestock industry. For these reasons, and because there is a risk of this virus spreading to Europe and North America, it is important to develop a vaccine that is stable, safe and effective in preventing infection. Potential vaccine viruses have been developed through deletion of two genes (NSs and NSm) affecting virus virulence. Because this virus is normally transmitted by mosquitoes we must determine the effects of the deletions in these vaccine viruses on their ability to infect and be transmitted by mosquitoes. An optimal vaccine virus would not infect or be transmitted. The viruses were tested in two mosquito species: Aedes aegypti and Culex quinquefasciatus. Deletion of the NSm gene reduced infection of Ae. aegypti mosquitoes indicating a role for the NSm protein in mosquito infection. The virus with deletion of both NSs and NSm genes was the best vaccine candidate since it did not infect Ae. aegypti and showed reduced infection and transmission rates in Cx. quinquefasciatus

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B Kalveram

Barry R. Miller

BH Bird

Bobbie Rae Erickson

BR Miller

Brad J. Biggerstaff

Brian H. Bird

D Fontenille

DL Vanlandingham

G Heinze

HM Savage

J Morvan

JL Hardy

JM Meegan

Kalanthe Horiuchi

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M Al-Hazmi

M Bouloy

M Habjan

M Pepin

Mary B. Crabtree

Michael J. Turell

MJ Turell

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PS Mellor

R Little

R Sang

Rebekah J. Kent Crockett

RJ Kent

S Moutailler

S Won

SJ Carpenter

SR Gerrard

Stuart T. Nichol

T Hothorn

TP Gargan 2nd

VH Lee

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 mosquitoes which are important amplification vectors., infection rates for viruses lacking NSm or both NSs and NSm were lower than for wild type virus. mosquitoes, indicating an important role for this protein. The double deleted viruses represent an ideal vaccine profile in terms of environmental containment due to lack of ability to efficiently infect and be transmitted by mosquitoes

Crabtree Mary B.

Kent Crockett Rebekah J.

Bird Brian H.

Nichol Stuart T.

Erickson Bobbie Rae

Biggerstaff Brad J.

Horiuchi Kalanthe

Miller Barry R.

Public Library of Science (PLOS)

Infection and Transmission of Rift Valley Fever Viruses Lacking the NSs and/or NSm Genes in Mosquitoes: Potential Role for NSm in Mosquito Infection

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PLoS Neglected Tropical Diseases

BACKGROUND: Rift Valley fever virus is an arthropod-borne human and animal pathogen responsible for large outbreaks of acute and febrile illness throughout Africa and the Arabian Peninsula. Reverse genetics technology has been used to develop deletion mutants of the virus that lack the NSs and/or NSm virulence genes and have been shown to be stable, immunogenic and protective against Rift Valley fever virus infection in animals. We assessed the potential for these deletion mutant viruses to infect and be transmitted by Aedes mosquitoes, which are the principal vectors for maintenance of the virus in nature and emergence of virus initiating disease outbreaks, and by Culex mosquitoes which are important amplification vectors. METHODOLOGY AND PRINCIPAL FINDINGS: Aedes aegypti and Culex quinquefasciatus mosquitoes were fed bloodmeals containing the deletion mutant viruses. Two weeks post-exposure mosquitoes were assayed for infection, dissemination, and transmission. In Ae. aegypti, infection and transmission rates of the NSs deletion virus were similar to wild type virus while dissemination rates were significantly reduced. Infection and dissemination rates for the NSm deletion virus were lower compared to wild type. Virus lacking both NSs and NSm failed to infect Ae. aegypti. In Cx. quinquefasciatus, infection rates for viruses lacking NSm or both NSs and NSm were lower than for wild type virus. CONCLUSIONS/SIGNIFICANCE: In both species, deletion of NSm or both NSs and NSm reduced the infection and transmission potential of the virus. Deletion of both NSs and NSm resulted in the highest level of attenuation of virus replication. Deletion of NSm alone was sufficient to nearly abolish infection in Aedes aegypti mosquitoes, indicating an important role for this protein. The double deleted viruses represent an ideal vaccine profile in terms of environmental containment due to lack of ability to efficiently infect and be transmitted by mosquitoes

Mary B Crabtree

Rebekah J Kent Crockett

Brian H Bird

Stuart T Nichol

Brad J Biggerstaff

Barry R Miller

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Infection and transmission of Rift Valley fever viruses lacking the NSs and/or NSm genes in mosquitoes: potential role for NSm in mosquito infection.

<div><h3>Background</h3><p>Rift Valley fever virus is an arthropod-borne human and animal pathogen responsible for large outbreaks of acute and febrile illness throughout Africa and the Arabian Peninsula. Reverse genetics technology has been used to develop deletion mutants of the virus that lack the NSs and/or NSm virulence genes and have been shown to be stable, immunogenic and protective against Rift Valley fever virus infection in animals. We assessed the potential for these deletion mutant viruses to infect and be transmitted by <em>Aedes</em> mosquitoes, which are the principal vectors for maintenance of the virus in nature and emergence of virus initiating disease outbreaks, and by <em>Culex</em> mosquitoes which are important amplification vectors.</p> <h3>Methodology and Principal Findings</h3><p><em>Aedes aegypti</em> and <em>Culex quinquefasciatus</em> mosquitoes were fed bloodmeals containing the deletion mutant viruses. Two weeks post-exposure mosquitoes were assayed for infection, dissemination, and transmission. In <em>Ae. aegypti</em>, infection and transmission rates of the NSs deletion virus were similar to wild type virus while dissemination rates were significantly reduced. Infection and dissemination rates for the NSm deletion virus were lower compared to wild type. Virus lacking both NSs and NSm failed to infect <em>Ae. aegypti</em>. In <em>Cx. quinquefasciatus</em>, infection rates for viruses lacking NSm or both NSs and NSm were lower than for wild type virus.</p> <h3>Conclusions/Significance</h3><p>In both species, deletion of NSm or both NSs and NSm reduced the infection and transmission potential of the virus. Deletion of both NSs and NSm resulted in the highest level of attenuation of virus replication. Deletion of NSm alone was sufficient to nearly abolish infection in <em>Aedes aegypti</em> mosquitoes, indicating an important role for this protein. The double deleted viruses represent an ideal vaccine profile in terms of environmental containment due to lack of ability to efficiently infect and be transmitted by mosquitoes.</p> </div

Mary B. Crabtree (167190)

Rebekah J. Kent Crockett (130397)

Brian H. Bird (139289)

Stuart T. Nichol (130422)

Bobbie Rae Erickson (130365)

Brad J. Biggerstaff (167196)

Kalanthe Horiuchi (167199)

Barry R. Miller (167201)

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NSs Protein of Rift Valley Fever virus promotes posttranslational downregulation of the TFIIH subunit p62.

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Rift Valley fever virus lacking NSm proteins retains high virulence in vivo and may provide a model of human delayed onset neurologic disease.

Rift valley fever virus lacking the NSs and NSm genes is highly attenuated, confers protective immunity from virulent virus challenge, and allows for differential identification of infected and vaccinated animals.

Rift Valley fever virus vaccine lacking the NSs and NSm genes is safe, nonteratogenic, and confers protection from viremia, pyrexia, and abortion following challenge in adult and pregnant sheep.

Rift Valley fever virus.

Short report: comparison of oral infectious dose of West Nile virus isolates representing three distinct genotypes in Culex quinquefasciatus.

Simultaneous inference in general parametric models.

Statistical Analysis with Missing Data. 2nd ed. Hoboken:

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TFIIH transcription factor, a target for the Rift Valley hemorrhagic fever virus.

The NSm proteins of Rift Valley fever virus are dispensable for maturation, replication and infection.

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Transmission of West Nile virus by Culex quinquefasciatus Say infected with Culex Flavivirus Izabal.

Vector competence of Kenyan Culex zombaensis and Culex quinquefasciatus mosquitoes for Rift Valley fever virus.

Vector competence of selected African mosquito (Diptera: Culicidae) species for Rift Valley fever virus.

Vector potential of selected North American mosquito species for Rift Valley fever virus.

Infection and Transmission of Rift Valley Fever Viruses Lacking the NSs and/or NSm Genes in Mosquitoes: Potential Role for NSm in Mosquito Infection

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