Abstract
During primary infection with intracellular bacteria, the membrane-associated form of TNF provides some TNF functions, but the relative contributions during memory responses are not well-characterized. In this study, we determined the role of T cell-derived secreted and membrane-bound TNF (memTNF) during adaptive immunity to Francisella tularensis live vaccine strain (LVS). Although transgenic mice expressing only the memTNF were more susceptible to primary LVS infection than wild-type (WT) mice, LVS-immune WT and memTNF mice both survived maximal lethal secondary Francisella challenge. Generation of CD44(high) memory T cells and clearance of bacteria were similar, although more IFN-gamma and IL-12(p40) were produced by memTNF mice. To examine T cell function, we used an in vitro tissue coculture system that measures control of LVS intramacrophage growth by LVS-immune WT and memTNF-T cells. LVS-immune CD4(+) and CD8(+) T cells isolated from WT and memTNF mice exhibited comparable control of LVS growth in either normal or TNF-alpha knockout macrophages. Although the magnitude of CD4(+) T cell-induced macrophage NO production clearly depended on TNF, control of LVS growth by both CD4(+) and CD8(+) T cells did not correlate with levels of nitrite. Importantly, intramacrophage LVS growth control by CD8(+) T cells, but not CD4(+) T cells, was almost entirely dependent on T cell-expressed TNF, and required stimulation through macrophage TNFRs. Collectively, these data demonstrate that T cell-expressed memTNF is necessary and sufficient for memory T cell responses to this intracellular pathogen, and is particularly important for intramacrophage control of bacterial growth by CD8(+) T cells.
Highlights
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The live vaccine strain (LVS) CFUs in the spleens and livers of the membrane-bound TNF (memTNF) mice were highest on days 1 and 2 after challenge, and the memTNF mice cleared the infection by day 4 after challenge
Because macrophage TNFRs are a critical component in the effective control of LVS intracellular growth by CD8ϩ T cells, and macrophage-derived TNF is known to operate in an autocrine fashion, we investigated whether macrophage TNF expression is a critical component of control of LVS intracellular growth by either CD4ϩ or CD8ϩ T cells
Summary
LVS, live vaccine strain; i.d., intradermal; memTNF, membrane-bound TNF; WT, wild type; KO, knockout; BMM, bone marrowderived macrophage; cDMEM, complete DMEM. Mice that express only memTNF were generated by replacing the endogenous TNF allele in wild-type (WT) C57BL/6 mice with the ⌬1–9K11E TNF allele [14]. This mutation resulted in complete loss of TNF-␣-converting enzyme-mediated cleavage of TNF, while maintaining normal cell surface expression and function of memTNF [14]. The memTNF mice succumbed during the first several days of a primary i.d. LVS infection in a dose-dependent manner; mice that survived lower doses of LVS through the early innate immune response cleared the infection. MemTNF can contribute to resistance to LVS infection, it is not sufficient to compensate for all of the functions of soluble TNF during the innate immune response. Because TNF is used by T cells during secondary adaptive immune responses to control LVS intracellular growth, in this study, we investigate the role of memTNF and soluble TNF in the function of LVS-immune T cells, by focusing on the ability of LVS-immune T cells to inhibit LVS growth in macrophages
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