Suyu L. Ruo scite author profile

African filoviruses have caused outbreaks of fulminating hemorrhagic fever among humans. In 1989, related filoviruses were isolated from cynomolgus monkeys imported into the United States from the Philippines. The pathogenic potential of these new filoviruses was compared in 16 Asian monkeys (Macaca fascicularis-cynomolgus) and 16 African monkeys (Cercopithecus aethiops-African green) using African filoviruses from Zaire (Ebola virus) and Sudan or Asian filoviruses (Reston and Pennsylvania). African filovirus infections resulted in earlier death (P = .005), had a shorter duration of disease and median incubation period (3-4 vs. 7 days), and had earlier peak viremia (5-7 vs. 7-9 days). African green monkeys showed significantly higher survival than cynomolgus monkeys (P less than .01), and some were asymptomatic as have been humans accidentally infected with Asian filovirus. Rechallenge experiments showed that protection in survivors of filovirus infections against fatal challenge with Ebola (Zaire) virus is unpredictable. The minimal clinical disease observed in humans infected with the Reston strain is consistent with host- and virus-dependent pathogenicity.

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Protection of rhesus monkeys from fatal Lassa fever by vaccination with a recombinant vaccinia virus containing the Lassa virus glycoprotein gene.

Fisher‐Hoch

McCormick

Auperin

et al. 1989

Proc. Natl. Acad. Sci. U.S.A.

102

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Lassa fever is an acute febrile disease of West Africa, where there are as many as 300,000 infections a year and an estimated 3000 deaths. As control of the rodent host is impracticable at present, the best immediate prospect is vaccination. We tested as potential vaccines in rhesus monkeys a closely related virus, Mopeia virus (two monkeys), and a recombinant vaccinia virus containing the Lassa virus glycoprotein gene, V-LSGPC (four monkeys). Two monkeys vaccinated with the New York Board of Health strain of vaccinia virus as controls died after challenge with Lassa virus. The two monkeys vaccinated with Mopeia virus developed antibodies measurable by radioimmunoprecipitation prior to challenge, and they survived challenge by Lassa virus with minimal physical or physiologic disturbances. However, both showed a transient, low-titer Lassa viremia. Two of the four animals vaccinated with V-LSGPC had antibodies to both Lassa glycoproteins, as determined by radioimmunoprecipitation. All four animals survived a challenge of Lassa virus but experienced a transient febrile illness and moderate physiologic changes following challenge. Virus was recoverable from each of these animals, but at low titer and only during a brief period, as observed for the Mopeia-protected animals. We conclude that V-LSGPC can protect rhesus monkeys against death from Lassa fever.

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Antigenic relatedness between arenaviruses defined at the epitope level by monoclonal antibodies

Ruo

Mitchell

Kiley

et al. 1991

Journal of General Virology

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Genetic Identification Of A New Puumala Virus Strain Causing Severe Hemorrhagic Fever With Renal Syndrome In Germany

Pilaski¹,

Feldmann²,

Morzunov³

et al. 1994

Journal of Infectious Diseases

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A severe case of suspected hemorrhagic fever with renal syndrome (HFRS) was recently identified in northwestern Germany. A genetic detection assay was designed that identified hantavirus-specific RNA in the patient's clinical specimens by reverse transcriptase-polymerase chain reaction amplification of virus S and M genome segments. Phylogenetic analysis of the nucleotide sequences demonstrated that this virus belonged to the Puumala (PUU) group, with the closest relationship to a PUU isolate from Finland. Within the group, this virus formed a separate lineage. This finding represents the first genetic characterization of a hantavirus causing severe HFRS in Germany. The data suggest that PUU viruses circulating in western European countries are genetically distinct from their northeastern counterparts. Comparison of deduced amino acid sequences demonstrated a loss of a potential N-glycosylation site in the G2 protein compared with other PUU viruses.

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Inactivated Lassa virus elicits a non protective immune response in rhesus monkeys

McCormick

Mitchell²,

Kiley³

et al. 1992

Journal of Medical Virology

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We attempted to protect three rhesus monkeys from Lassa fever by vaccination with a preparation of purified whole Lassa virus which had been inactivated by gamma irradiation. The vaccinated monkeys developed antibodies against the three major viral proteins of Lassa virus demonstrated by radioimmunoprecipitation. When the three vaccinated monkeys and two unvaccinated control monkeys were challenged all five became severely ill and died. Prior to death a secondary, high-titer antibody response to Lassa virus was observed in the three vaccinated monkeys, whereas the two unvaccinated monkeys developed a primary, low-titer antibody response. Though titers of Lassa virus in serum reached peak levels earlier following challenge in the non vaccinated, at the time of death serum and organ virus titers did not differ significantly. Changes in platelet aggregation, leukocyte counts, and liver enzymes, abnormalities of which have been associated with severity of Lassa fever, were found to be comparable in the two groups. The humoral antibody response measured in these animals following vaccination, although of the same magnitude as found in humans recovered from Lassa fever, was insufficient to protect the animals from this fatal disease. Evidence is now accumulating that the cell-mediated immune response must be activated in order to protect against challenge with arenaviruses.

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Suyu L. Ruo

Pathogenic Potential of Filoviruses: Role of Geographic Origin of Primate Host and Virus Strain

Protection of rhesus monkeys from fatal Lassa fever by vaccination with a recombinant vaccinia virus containing the Lassa virus glycoprotein gene.

Antigenic relatedness between arenaviruses defined at the epitope level by monoclonal antibodies

Genetic Identification Of A New Puumala Virus Strain Causing Severe Hemorrhagic Fever With Renal Syndrome In Germany

Inactivated Lassa virus elicits a non protective immune response in rhesus monkeys

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