A Small Animal Model for Viscerotropic Disease to Improve Yellow Fever Vaccine
University Of Pittsburgh At Pittsburgh, Pittsburgh PA
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Abstract
DESCRIPTION (provided by applicant): Yellow fever virus (YFV) causes the mosquito-borne disease yellow fever (YF), a viscerotropic disease, i.e., it targets the liver, of primates. The disease is controlled by a very efficacious live attenuated vaccine, strain 17D, which was derived from wild-type strain Asibi and has been administered to over 540 million people in the last 70 years. In the last 10 years a rare, but fatal, condition has been reported due to the vaccine, termed YF vaccine associated viscerotropic disease (YEL-AVD). This condition is associated with uncontrolled replication of the virus in primary vaccinees resulting in pansystemic infection and a disease picture very similar to wild-type YFV. Originally, YEL-AVD was reported to have an incidence of 0.3 per 100,000 vaccinees. However, in October 2007, an incidence of 9 per 100,000 was reported in Peru. This alarming rate of serious adverse events is causing regulatory authorities to re-evaluate the contraindications and use of the 17D vaccine, and a number of individuals are calling for the development of a new YF vaccine. Nonetheless, it is recognized that development of a new vaccine takes at least 15 years. Thus, there is an urgent need to undertake research on the current vaccine to understand YEL-AVD and how the current vaccine could be improved. This urgency is emphasized by the use of 17D vaccine virus to generate chimeric viruses containing the structural protein genes of one flavivirus (e.g. Japanese encephalitis) in a 17D vaccine virus backbone. Such chimeric vaccines are in phase II clinical trials. Surprisingly, little is known about the molecular mechanisms that govern the virulence of wild-type YFV or the attenuation and immunogenicity of the live- attenuated YFV 17D vaccine. This is, in part, due to the lack of a small animal of viscerotropism. The PI has developed a new YFV infection model that readily distinguishes wild-type Asibi strain from the 17D vaccine strain. Our long-term goals are to use this model to understand the immunologic basis of viscerotropism and attenuation. Our specific aims are: i) investigate the steps in the pathogenic sequence at which attenuated 17D virus infection is blocked compared with virulent Asibi virus thereby identifying potential anomalies in the innate immune response that might be important to the development of YEL-AVD; and ii) identify YFV-encoded molecular determinants of viscerotropism present in YEL-AVD isolates by examining their viscerotropic phenotype in the new mouse model developed in this project.
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