Your search keyword '"Erwin-Cohen, Rebecca A."' showing total 2 results

1. Eastern equine encephalitis virus in mice II: pathogenesis is dependent on route of exposure.

Author

Honnold, Shelley P., Mossel, Eric C., Bakken, Russell R., Lind, Cathleen M., Cohen, Jeffrey W., Eccleston, Lori T., Spurgers, Kevin B., Erwin-Cohen, Rebecca, Glass, Pamela J., and Maheshwari, Radha K.

Subjects

EASTERN equine encephalomyelitis virus, EASTERN equine encephalomyelitis, LABORATORY mice, ALPHAVIRUS diseases, DRUG development, VIRAL antigens

Abstract

Background: Eastern equine encephalitis virus (EEEV) is an alphavirus with a case fatality rate estimated to be as high as 75 % in humans and 90 % in horses. Surviving patients often have long-lasting and severe neurological sequelae. At present, there is no licensed vaccine or therapeutic for EEEV infection. This study completes the clinical and pathological analysis of mice infected with a North American strain of EEEV by three different routes: aerosol, intranasal, and subcutaneous. Such an understanding is imperative for use of the mouse model in vaccine and antiviral drug development. Methods: Twelve-week-old female BALB/c mice were infected with EEEV strain FL93-939 by the intranasal, aerosol, or subcutaneous route. Mice were euthanized 6 hpi through 8 dpi and tissues were harvested for histopathological and immunohistochemical analysis. Results: Viral antigen was detected in the olfactory bulb as early as 1-2 dpi in aerosol and intranasal infected mice. However, histologic lesions in the brain were evident about 24 hours earlier (3 dpi vs 4 dpi), and were more pronounced following aerosol infection relative to intranasal infection. Following subcutaneous infection, viral antigen was also detected in the olfactory bulb, though not as routinely or as early. Significant histologic lesions were not observed until 6 dpi. Conclusion: These pathologic studies suggest EEEV enters the brain through the olfactory system when mice are exposed via the intranasal and aerosol routes. In contrast, the histopathologic lesions were delayed in the subcutaneous group and it appears the virus may utilize both the vascular and olfactory routes to enter the brain when mice are exposed to EEEV subcutaneously. [ABSTRACT FROM AUTHOR]

Published

2015

2. Eastern equine encephalitis virus in mice I: clinical course and outcome are dependent on route of exposure.

Author

Honnold, Shelley P., Mossel, Eric C., Bakken, Russell R., Fisher, Diana, Lind, Cathleen M., Cohen, Jeffrey W., Eccleston, Lori T., Spurgers, Kevin B., Erwin-Cohen, Rebecca, Bradfute, Steven B., Maheshwari, Radha K., and Glass, Pamela J.

Subjects

EASTERN equine encephalomyelitis virus, LABORATORY mice, AEROSOLS, CYTOKINES, INTRANASAL medication, BIOTERRORISM

Abstract

Background: Eastern equine encephalitis virus (EEEV), an arbovirus, is an important human and veterinary pathogen belonging to one of seven antigenic complexes in the genus Alphavirus, family Togaviridae. EEEV is considered the most deadly of the mosquito-borne alphaviruses due to the high case fatality rate associated with clinical infections, reaching up to 75 % in humans and 90 % in horses. In patients that survive acute infection, neurologic sequelae are often devastating. Although natural infections are acquired by mosquito bite, EEEV is also highly infectious by aerosol. This fact, along with the relative ease of production and stability of this virus, has led it to being identified as a potential agent of bioterrorism. Methods: To characterize the clinical course and outcome of EEEV strain FL93-939 infection, we compared clinical parameters, cytokine expression, viremia, and viral titers in numerous tissues of mice exposed by various routes. Twelve-week-old female BALB/c mice were infected by the intranasal, aerosol, or subcutaneous route. Mice were monitored for clinical signs of disease and euthanized at specified time points (6 hpi through 8 dpi). Blood and tissues were harvested for cytokine analysis and/or viral titer determination. Results: Although all groups of animals exhibited similar clinical signs after inoculation, the onset and severity differed. The majority of those animals exposed by the aerosol route developed severe clinical signs by 4 dpi. Significant differences were also observed in the viral titers of target tissues, with virus being detected in the brain at 6 hpi in the aerosol study. Conclusion: The clinical course and outcome of EEEV infection in mice is dependent on route of exposure. Aerosol exposure to EEEV results in acute onset of clinical signs, rapid neuroinvasion, and 100 % mortality. [ABSTRACT FROM AUTHOR]

Published

2015