Use of an in vivo FTA assay to assess the magnitude, functional avidity and epitope variant cross-reactivity of T Cell responses following HIV-1 recombinant poxvirus vaccination
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Wijesundara, Danushka K.
Jackson, Ronald J.
Lidbury, Brett
Parish, Christopher
Quah, Benjamin J. C
Ranasinghe, Charani
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Public Library of Science
Abstract
Qualitative characteristics of cytotoxic CD8+ T cells (CTLs) are important in measuring the effectiveness of CTLs in controlling HIV-1 infections. Indeed, in recent studies patients who are naturally resistant to HIV-1 infections have been shown to possess CTLs that are of high functional avidity and have a high capacity to recognize HIV epitope variants, when compared to HIV-1 infection progressors. When developing efficacious vaccines, assays that can effectively measure CTL quality specifically in vivo are becoming increasingly important. Here we report the use of a recently developed high-throughput multi-parameter technique, known as the fluorescent target array (FTA) assay, to simultaneously measure CTL killing magnitude, functional avidity and epitope variant cross-reactivity in real time in vivo. In the current study we have applied the FTA assay as a screening tool to assess a large cohort of over 20 different HIV-1 poxvirus vaccination strategies in mice. This screen revealed that heterologous poxvirus prime-boost vaccination regimes (i.e., recombinant fowlpox (FPV)-HIV prime followed by a recombinant vaccinia virus (VV)-HIV booster) were the most effective in generating high quality CTL responses in vivo. In conclusion, we have demonstrated how the FTA assay can be utilized as a cost effective screening tool (by reducing the required number of animals by >100 fold), to evaluate a large range of HIV-1 vaccination strategies in terms of CTL avidity and variant cross-reactivity in an in vivo setting.
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aids vaccines, animals, cross reactions, epitopes, fluorescence, hiv infections, hiv-1, high-throughput screening assays, humans, immunization, secondary, male, mice, mice, inbred balb c, microarray analysis, poxviridae, poxviridae infections, t-lymphocytes, cytotoxic, vaccination, vaccines, dna, vaccinia virus
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PLoS ONE
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