Comparable Polyfunctionality of Ectromelia Virus- and Vaccinia Virus-Specific Murine T Cells despite Markedly Different In Vivo Replication and Pathogenicity

AR Hersperger, NA Siciliano, LC Eisenlohr - Journal of virology, 2012 - Am Soc Microbiol
Journal of virology, 2012Am Soc Microbiol
Vaccinia virus (VACV) stimulates long-term immunity against highly pathogenic
orthopoxvirus infection of humans (smallpox) and mice (mousepox [ectromelia virus
{ECTV}]) despite the lack of a natural host-pathogen relationship with either of these
species. Previous research revealed that VACV is able to induce polyfunctional CD8+ T-cell
responses after immunization of humans. However, the degree to which the functional
profile of T cells induced by VACV is similar to that generated during natural poxvirus …
Abstract
Vaccinia virus (VACV) stimulates long-term immunity against highly pathogenic orthopoxvirus infection of humans (smallpox) and mice (mousepox [ectromelia virus {ECTV}]) despite the lack of a natural host-pathogen relationship with either of these species. Previous research revealed that VACV is able to induce polyfunctional CD8+ T-cell responses after immunization of humans. However, the degree to which the functional profile of T cells induced by VACV is similar to that generated during natural poxvirus infection remains unknown. In this study, we monitored virus-specific T-cell responses following the dermal infection of C57BL/6 mice with ECTV or VACV. Using polychromatic flow cytometry, we measured levels of degranulation, cytokine expression (gamma interferon [IFN-γ], tumor necrosis factor alpha [TNF-α], and interleukin-2 [IL-2]), and the cytolytic mediator granzyme B. We observed that the functional capacities of T cells induced by VACV and ECTV were of a similar quality in spite of the markedly different replication abilities and pathogenic outcomes of these viruses. In general, a significant fraction (≥50%) of all T-cell responses were positive for at least three functions both during acute infection and into the memory phase. In vivo killing assays revealed that CD8+ T cells specific for both viruses were equally cytolytic (∼80% target cell lysis after 4 h), consistent with the similar levels of granzyme B and degranulation detected among these cells. Collectively, these data provide a mechanism to explain the ability of VACV to induce protective T-cell responses against pathogenic poxviruses in their natural hosts and provide further support for the use of VACV as a vaccine platform able to induce polyfunctional T cells.
American Society for Microbiology