Immunization with peptides together with adjuvants such as CFA, L

Immunization with peptides together with adjuvants such as CFA, LPS, or CpG, is able to induce small populations of memory CD8+ T cells. Unfortunately, these populations accumulate primarily in the local draining LN (dLN) and are largely undetectable by direct ex vivo assays, requiring in vitro secondary expansion for detection 10–13. Recent studies have reported some success at improving these apparent limitations and describe the induction of memory T-cell populations using synthetic peptide antigens 14–19. However, these studies have employed repeated immunizations, high

doses of antigen, large quantities of recombinant cytokines, and/or potent agonistic antibodies selleck chemical to T-cell costimulatory machinery – strategies that may not be feasible in a mass vaccination setting. Here we describe studies aimed to characterize the basic features of the CD8+ T-cell responses induced by immunization with short synthetic peptides. We tracked GS-1101 cost the response of TCR-Tg T cells to a vaccination of peptide alone and in combination with different TLR agonists and found that soluble peptides alone are highly immunogenic in vivo, but fail to induce mechanisms promoting the survival of activated T cells. Indeed, peptide-primed CD8+ T cells display unique phenotypic features indicative

of poor survival and inability to expand. Further, we identify the TLR-9 agonist, CpG, and B cells as major factors that can

positively and negatively affect, respectively, the establishment of long-term memory CD8+ T-cell populations in response to peptide immunization. To study the CD8+ T-cell responses to soluble peptide immunization, we used an experimental system based on the adoptive transfer of naïve CD8+ T cells expressing a TCR-Tg specific for the epitope SYVPSAEQI from the CS protein of P. yoelii malaria parasites. Given that primary T-cell responses to peptide-based immunization have Arachidonate 15-lipoxygenase been difficult to detect directly ex vivo or upon transfer of small numbers 2×103 TCR-Tg cells (Supporting Information Fig. 1), we began our studies by transferring 5×105 CFSE-labeled TCR-Tg T cells so that early priming events could be readily visualized by the dilution profile of the labeled T cells. We established that as little as 2.5 μg of peptide in PBS induced a strong proliferative response, detectable as early as 3 days after immunization in the spleen and in the LN draining the site of immunization (Fig. 1A). In fact, as little as 0.25 μg of peptide was able to induce measurable T-cell proliferation in the LN draining the site of immunization, though a systemic response was not observed. Increasing the amount of peptide to 25 μg resulted in an unphysiological T-cell proliferation profile. Thus, we carried out further experiments with a peptide dose range of 2.5–5 μg.

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