Project description:The mosquito-borne West Nile virus (WNV) is a highly neurovirulent Flavivirus currently representing an emergent zoonotic concern. WNV cycles in nature between mosquito vectors and birds that act as amplifier hosts and play an essential role in virus ecology, being, thus, WNV a threat to many species. Availability of an efficient avian vaccine would benefit certain avian populations, both birds grown for hunting and restocking activities, as well as endangered species in captive breeding projects, wildlife reservations, and recreation installations, and would be useful to prevent and contain outbreaks. Avian vaccination would be also of interest to limit WNV spillover to humans or horses from susceptible bird species that live in urbanized landscapes, like magpies. Herein, we have addressed the efficacy of a single dose of a WNV recombinant subviral particle (RSP) vaccine in susceptible magpie (Pica pica). The protective capacity of the RSP-based vaccine was demonstrated upon challenge of magpies with 5 × 103 plaque forming units of a neurovirulent WNV strain. A significant improvement in survival rates of immunized birds was recorded when compared to vehicle-inoculated animals (71.4 vs. 22.2%, respectively). Viremia, which is directly related to the capacity of a host to be competent for virus transmission, was reduced in vaccinated animals, as was the presence of infectious virus in feather follicles. Bird-to-bird transmission was recorded in three of six unchallenged (contact) magpies housed with non-vaccinated WNV-infected birds, but not in contact animals housed with vaccinated WNV-infected magpies. These results demonstrate the protective efficacy of the RSP-based vaccine in susceptible birds against WNV infection and its value in controlling the spread of the virus.

Project description:Here, we characterize the RIX line CC(032x013)F1, which serves as a mouse model of chronic WNV infection. While studies using C57BL/6 mice have shown that WNV RNA can persist in the CNS up to 3 months post infection in a limited fraction of mice (Appler et al., 2010), to date there is a lack of a robust mouse model of chronic West Nile virus infection that can be used to elucidate the immune responses associated with this viral persistence and chronicity of symptoms described in human patients. Here, we characterize this line in comparison with lines showing either no disease symptoms or significant disease, and suggest a mechanism by which WNV infection can become chronic through alterations in immune responses.

Project description:Macrophages encounter flaviviruses early after injection by arthropod vectors. Using in vivo imaging of mice inoculated with firefly luciferase-expressing single-cycle flavivirus particles (FLUC-SCFV), we examined the initial dissemination of virus particles in the presence or absence of lymph node (LN)-resident macrophages. Higher luciferase activity, indicating higher SCFV gene expression, was detected in the footpad of macrophage-depleted mice after 24h post infection (hpi). Moreover, FLUC-SCFV particles disseminated to the spleen within 14 hpi in macrophage-depleted, but not control mice. Although macrophages presented SCFV to naïve T cells in vitro, depletion of subcapsular sinus (SCS) macrophages did not alter the magnitude or effector function of the WNV-specific CD8(+) T cell response. Together, these results indicate that SCS macrophages play a role in limiting the dissemination of SCFV early in infection but are not required for the generation of a polyfunctional WNV-specific CD8(+) T cell response in the draining LN.

Project description:Comparative Genomics of West Nile virus for Broad Institute Viral Genomics Initiative

Project description:West Nile virus: Genome sequencing

Project description:West Nile virus genomic data from California

Project description:Understanding evolutionary dynamics of West Nile Virus (WNV) circulating within human populations

Project description:West Nile virus Raw sequence reads

Project description:West Nile virus Raw sequence reads

Project description:West Nile virus Genome sequencing and assembly