Susceptibility and Lethality of Western Equine Encephalitis Virus in Balb/c Mice When Infected by the Aerosol Route.

Western equine encephalitis virus (WEEV) naturally cycles between mosquitos and birds or rodents, with a case fatality rate of up to 15% in humans during epizootic outbreaks. There are no medical countermeasures to treat WEEV infection, and accidental aerosol exposure increases the case fatality rate up to 40%. Understanding the pathogenesis of infection is required to develop and assess medical countermeasures. This study describes the clinical and pathological findings of mice infected with WEEV by the aerosol route, and use as a model for WEEV infection in humans. Balb/c mice were infected by the aerosol route with a dose range of high-virulence WEEV strain Fleming to establish the median lethal dose (MLD). The disease course was acute, culminating in severe clinical signs, neuroinvasion, and dose-dependent mortality. Further groups of mice were exposed by the aerosol route, periodically sacrificed, and tissues excised for histopathological examination and virology. Viral titres peaked four days post-challenge in the brain and lungs, corresponding with severe bilateral lesions in rostroventral regions of the encephalon, especially in the olfactory bulb and piriform cortex. Recapitulation of the most serious clinical presentations of human WEEV disease in mice may prove a useful tool in the evaluation of medical countermeasures.

Effect of T-705 treatment on western equine encephalitis in a mouse model.

A mouse model of western equine encephalitis (WEE) was characterized for use in antiviral studies. Virus was detected in several tissues, most notably an average titer of 9.5+/-1.1 log(10) 50% cell culture infectious doses (CCID(50))/g tissue in the brains of infected animals. Signs of WEE included limb weakness, paralysis, involuntary spasms or extension of limbs, clenching of paws, hunching, ruffling of fur, and eye exudates, many of which are indicative of neurological disease. The pyrazinecarboxamide derivative, T-705, was found to be active in Vero cells against WEE virus (WEEV) with an 90% effective concentration (EC(90)) of 49microg/ml (selective index [SI]>20). Treatment with T-705 in this WEE mouse model resulted in significant improvement in survival and mean day to death after oral treatment administered twice a day for 7 days at a dose of 400mg/(kgd). Virus titer in the brain was not significantly reduced, despite a 1-log reduction in average brain titer in treated animals on 4dpi. Signs of disease were relatively mild in treated animals, but were not eliminated. Treatment with T-705 improved morbidity and mortality of WEEV-infected mice, further illustrating the broad-spectrum activity of T-705 in the treatment of RNA viruses.

Detection of encephalitis viruses in mosquitoes (Diptera: Culicidae) and avian tissues.

ABSTRACT Diagnostic assays for the detection of St. Louis encephalitis (SLE) and western equine encephalomyelitis (WEE) viruses in mosquito pools and avian tissues were compared for sensitivity, accuracy and specificity. The in situ enzyme immunoassay (EIA), plaque assay on Vero cells, passage in Aedes albopictus Skuse C6/36 and C7/10 cells, antigen capture enzyme immunoassay (AC-EIA), and single and multiplex reverse transcription-polymerase chain reactions (RT-PCR) were evaluated using pools of 50 mosquitoes containing 1-2 experimentally infected individuals. RT-PCR was the most sensitive assay, with a detection limit of <0.1 plaque forming unit. AC-EIA was the fastest and most economical procedure, but was the least sensitive, detecting only 38% of positive pools. The in situ EIA included initial virus amplification on Vero cells, thereby improving assay sensitivity to detect 68% of positive pools. Passage in C6/36 and/or C7/10 cell culture revealed the presence of infectious virus in samples positive by RT-PCR, but initially negative by plaque assay on Vero cell culture, indicating that detection was related to assay sensitivity and not to the absence of intact infectious virus. Combining WEE and SLE RT-PCR assays into a multiplex assay reduced sensitivity, but stilldetected viral RNA at titers below plaque assay sensitivity. Plaque assay on Vero cells, mosquito cell passage, and several RT-PCR procedures were evaluated for their ability to detect WEE and SLE in white-crowned sparrow tissues during acute and chronic stages of infection. All assays detected virus during acute infection at times of high viremia; however, only RT-PCR assays were positive by day 7 when virus was not detected in sera. RT-PCR detected SLE RNA in spleen tissue from one bird 51 d after infection. Assay sensitivity also was compared using extracts of homogenized bird organs spiked with known titers of WEE and SLE. Trizol RNA extraction followed by Qiagen one-step RT-PCR was the most sensitive method, but occasionally resulted in the presence of secondary bands confounding interpretation and requiring confirmatory assays. A balanced surveillance program should combine systems that allow the detection of new agents and the sensitive monitoring of endemic agents to provide an early warning of pending health risks.