Abstract
Rapid proliferation is one of the important features of memory CD8+ T cells, ensuring rapid clearance of reinfection. Although several cytokines such as IL-15 and IL-7 regulate relatively slow homeostatic proliferation of memory T cells during the maintenance phase, it is unknown how memory T cells can proliferate more quickly than naïve T cells upon antigen stimulation. To examine antigen-specific CD8+ T cell proliferation in recall responses in vivo, we targeted a model antigen, ovalbumin(OVA), to DEC-205+ dendritic cells (DCs) with a CD40 maturation stimulus. This led to the induction of functional memory CD8+ T cells, which showed rapid proliferation and multiple cytokine production (IFN-γ, IL-2, TNF-α) during the secondary challenge to DC-targeted antigen. Upon antigen-presentation, IL-18, an IFN-γ-inducing factor, accumulated at the DC:T cell synapse. Surprisingly, IFN-γ receptors were required to augment IL-18 production from DCs. Mice genetically deficient for IL-18 or IFN-γ-receptor 1 also showed delayed expansion of memory CD8+ T cells in vivo. These results indicate that a positive regulatory loop involving IFN-γ and IL-18 signaling contributes to the accelerated memory CD8+ T cell proliferation during a recall response to antigen presented by DCs.
Highlights
Memory CD8+ T cells are an important component of acquired immunity to viruses and other pathogens [1,2,3]
To examine whether the targeted delivery of OVA to DEC205+ dendritic cells (DCs) can induce memory CD8+ T cells, C57BL/6(B6) mice were primed with a single dose of anti-DEC-205:OVA protein in the presence of the agonistic anti-CD40 monoclonal antibodies (mAbs), 1C10 [21], and 60 days later, the mice were boosted with anti-DEC:OVA+antiCD40
These results indicate that delivery of OVA to DEC-205+ DCs in the presence of CD40 ligation induces expansion of tetramer binding memory CD8+ T cells in both spleen and liver, and that these T cells respond rapidly to antigen rechallenge
Summary
Memory CD8+ T cells are an important component of acquired immunity to viruses and other pathogens [1,2,3]. Memory T cells can persist for extended periods, and they respond more rapidly and more vigorously than naıve T cells when they reencounter the same antigen. Several cytokines such as IL-15 and IL-7 regulate basal, relatively slow, homeostatic proliferation of memory T cells during the maintenance phase [4,5,6,7,8], it is unknown how memory T cells can proliferate more quickly than naıve T cells upon antigen re-encounter. Understanding the development of memory CD8+ T cells in response to safe forms of microbial and tumor antigens should be valuable for identifying correlates of protective immunity and the design of effective vaccines
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