Abstract
West Nile virus (WNV) infection can result in severe neuroinvasive disease, particularly in persons with advanced age. As rodent models demonstrate that T cells play an important role in limiting WNV infection, and strong T cell responses to WNV have been observed in humans, we postulated that inadequate antiviral T cell immunity was involved in neurologic sequelae and the more severe outcomes associated with age. We previously reported the discovery of six HLA-A*0201 restricted WNV peptide epitopes, with the dominant T cell targets in naturally infected individuals being SVG9 (Env) and SLF9 (NS4b). Here, memory phenotype and polyfunctional CD8+ T cell responses to these dominant epitopes were assessed in 40 WNV seropositive patients displaying diverse clinical symptoms. The patients' PBMC were stained with HLA-I multimers loaded with the SVG9 and SLF9 epitopes and analyzed by multicolor flow cytometry. WNV-specific CD8+ T cells were found in peripheral blood several months post infection. The number of WNV-specific T cells in older individuals was the same, if not greater, than in younger members of the cohort. WNV-specific T cells were predominantly monofunctional for CD107a, MIP-1β, TNFα, IL-2, or IFNγ. When CD8+ T cell responses were stratified by disease severity, an increased number of terminally differentiated, memory phenotype (CD45RA+ CD27− CCR7− CD57+) T cells were detected in patients suffering from viral neuroinvasion. In conclusion, T cells of a terminally differentiated/cytolytic profile are associated with neuroinvasion and, regardless of age, monofunctional T cells persist following infection. These data provide the first indication that particular CD8+ T cell phenotypes are associated with disease outcome following WNV infection.
Highlights
West Nile virus (WNV) was first reported in the eastern United States in 1999 and has since spread westward through the entire North American continent
Our results demonstrated that the immunodominance of SVG9 and SLF9 that we previously showed by production of IFN-c in vitro was evidenced by direct staining of uncultured CD8+ T cells with multimers specific for SVG9 and SLF9
As T cell responses play an important role in the resolution of WNV infections, in this study we characterized WNV-specific memory CD8+ T cells in patients that resolve their infection, in patients with neuroinvasive disease, and stratified by age
Summary
West Nile virus (WNV) was first reported in the eastern United States in 1999 and has since spread westward through the entire North American continent. Reported WNV cases peaked at about 10,000 in 2003 and WNV continues to represent a considerable public health threat. Almost 50% report neurologic symptoms due to encephalitis or meningitis (http:// www.cdc.gov/ncidod/dvbid/westnile/surv&controlCaseCount09_ detailed.htm). Rates of WNV infection are expected to increase if global temperatures rise [1]. At this time there is no specific treatment for West Nile virus infection; intensive supportive therapy is directed toward the complications of brain infections, with anti-inflammatory medications, intravenous fluids, and intensive medical monitoring applied to severe cases.
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