Type I interferons protect T cells against NK cell attack mediated by the activating receptor NCR1.

Direct type I interferon (IFN) signaling on T cells is necessary for the proper expansion, differentiation, and survival of responding T cells following infection with viruses prominently inducing type I IFN. The reasons for the abortive response of T cells lacking the type I IFN receptor (Ifnar1(-/-)) remain unclear. We report here that Ifnar1(-/-) T cells were highly susceptible to natural killer (NK) cell-mediated killing in a perforin-dependent manner. Depletion of NK cells prior to lymphocytic choriomeningitis virus (LCMV) infection completely restored the early expansion of Ifnar1(-/-) T cells. Ifnar1(-/-) T cells had elevated expression of natural cytotoxicity triggering receptor 1 (NCR1) ligands upon infection, rendering them targets for NCR1 mediated NK cell attack. Thus, direct sensing of type I IFNs by T cells protects them from NK cell killing by regulating the expression of NCR1 ligands, thereby revealing a mechanism by which T cells can evade the potent cytotoxic activity of NK cells.

From crucial to negligible: functional CD8⁺ T-cell responses and their dependence on CD4⁺ T-cell help.

CD8(+) T cells play an important role in controlling pathogenic infections and are therefore key players in the immune response. It has been shown that among other factors CD4(+) T cells can shape the magnitude as well as the quality of primary and/or secondary CD8(+) T-cell responses. However, due to the complexity and the differences among diverse immunization or infection models, the overall requirement, the time points, as well as the specific mechanism(s) of CD4(+) T-cell help may differ substantially. Here, we summarize current knowledge about the differential requirement of CD4(+) T-cell help in promoting primary CD8(+) T-cell responses as well as establishing functional memory CD8(+) T cells in various experimental settings.

Type-I IFN drives the differentiation of short-lived effector CD8+ T cells in vivo.

Two subsets of CD8(+) T cells are generated early during an immune response; one of these subsets forms the memory pool, known as memory precursor effector cells (MPECs), identified by high expression of CD127 and low expression of KLRG1, whereas the other subset forms short-lived effector cells (SLECs) identified by low expression of CD127 and high expression of KLRG1. Here, we studied in vivo the role of type-I IFN in this fate decision. We found that under priming conditions dominated by type-I IFN, as observed in lymphocytic choriomeningitis virus (LCMV) infection, type-I IFN signaling directly impacted the regulation of T-bet and thus the early fate decision of CD8(+) T cells. In the absence of type-I IFN signaling, CD8(+) T cells failed to form SLECs but could form MPECs that give rise to functional memory CD8(+) T cells. Together, these findings identify type-I IFN as an important factor driving SLEC differentiation and thus instructing the early division between the effector and memory precursor CD8(+) T-cell pool.

Type I IFN substitutes for T cell help during viral infections.

Certain virus infections depend on the presence of T cell help for the generation of primary CD8(+) T cell responses. However, the mechanisms that render these particular viral infections T cell help dependent is largely unknown. In this study, we compared CD8(+) T cell responses elicited by lymphocytic choriomeningitis virus infection, as prototype of a T cell help independent infection, with T cell help dependent CD8(+) T cell responses induced by vaccinia virus infection. In this paper, we show that a key parameter decisive for T cell help independence is the ability of an infectious agent to stimulate early and robust production of type I IFN. Experimental provision of type I IFN during VV infection rendered the ensuing CD8(+) T cell response completely T cell help independent. Our results support a model in which type I IFN has to be present during the first 3 d of Ag encounter and has to act directly on the responding CD8(+) T cells to promote their survival and effector differentiation. We show that type I IFN signaling on responding CD8(+) T cells induces profound upregulation of CD25 and increased IL-2 expression; however, neither this nor IL-15 accounts for the type I IFN effects on responding CD8(+) T cells. Thus, type I IFN can effectively replace the requirement of T cell help by directly promoting CD8(+) T cell survival and differentiation independent of the type I IFN-induced cytokines IL-2 and IL-15.

Th cells act via two synergistic pathways to promote antiviral CD8+ T cell responses.

The mechanisms of how Th cells promote CD8(+) T cell responses during viral infections are largely unknown. In this study, we unraveled the mechanisms of T cell help for CD8(+) T cell responses during vaccinia virus infection. Our results demonstrate that Th cells promote vaccinia virus-specific CD8(+) T cell responses via two interconnected synergistic pathways: First, CD40L expressed by activated CD4(+) T cells instructs dendritic cells to produce bioactive IL-12p70, which is directly sensed by Ag-specific CD8(+) T cells, resulting in increased IL-2Rα expression. Second, Th cells provide CD8(+) T cells with IL-2, thereby enhancing their survival. Thus, Th cells are at the center of an important communication loop with a central role for IL-2/IL-2R and bioactive IL-12.

Carrier induced epitopic suppression of antibody responses induced by virus-like particles is a dynamic phenomenon caused by carrier-specific antibodies.

Pre-existing immunity against vaccine carrier proteins has been reported to inhibit the immune response against antigens conjugated to the same carrier by a process termed carrier induced epitopic suppression (CIES). Hence understanding the phenomenon of CIES is of major importance for the development of conjugate vaccines. Virus-like particles (VLPs) are a novel class of potent immunological carriers which have been successfully used to enhance the antibody response to virtually any conjugated antigen. In the present study we investigated the impact of a pre-existing VLP-specific immune response on the development of antibody responses against a conjugated model peptide after primary, secondary and tertiary immunization. Although VLP-specific immune responses led to reduced peptide-specific antibody titers, we showed that CIES against peptide-VLP conjugates could be overcome by high coupling densities, repeated injections and/or higher doses of conjugate vaccine. Furthermore we dissected VLP-specific immunity by adoptively transferring VLP-specific antibodies, B-cells or T(helper) cells separately into naïve mice and found that the observed CIES against peptide-VLP conjugates was mainly mediated by carrier-specific antibodies.

Virus-specific CD8 T cells: activation, differentiation and memory formation.

CD8 T cells are pivotal for the control of many intracellular pathogens, and besides their role in immediate control of infections, CD8 T cells have the capacity to differentiate into long-lived antigen-independent memory CD8 T cells, at least in situations of acute and resolved infections. The population of memory cells is heterogeneous with respect to their phenotype, their anatomical localization and their functional capacities in order to afford optimal protection against secondary infections. In the past years, it has become clear that multiple in vivo parameters are involved in shaping the composition of the memory CD8 T cell population, including antigen load, duration and strength of CD8 T cell stimulation, the level of inflammation, availability of CD4 T cell help and CD8 T cell precursor frequencies. With respect to the timing when CD8 T cells are committed to become memory cells, several models have been proposed. In contrast to acute, resolved infection, the continued in vivo exposure to high levels of antigen during persistent chronic viral infection precludes the development of long-lived antigen-independent memory CD8 T cells and might even result in severe dysfunction of virus-specific CD8 T cells.

Kinetic and mechanistic requirements for helping CD8 T cells.

The requirements for the generation of fully competent long-lived memory CD8 T cells and in particular the role and the mechanisms of help from CD4 T cells remain ill-defined. Memory CD8 T cells generated in the absence of CD4 T cell help often have an impaired recall proliferation and are thus unable to confer protection against certain pathogens. However, the timing and the mechanisms involved in the delivery of help are still unclear and differ between various experimental systems. In this study, we investigated the role of CD4 T help in generating memory CD8 T cells in a defined heterologous prime-boost system, consisting of priming with replication incompetent virus-like particles and challenge with recombinant vaccinia virus, both sharing only a common lymphocytic choriomeningitis virus-derived CD8 T cell epitope. We show in this system that delivery of help is only essential during the challenge phase for recall proliferation of memory CD8 T cells. Furthermore, we show that generation of proliferation-competent memory CD8 T cells is independent of CD40 and CCR5 and that in vivo IL-2 supplementation neither during priming nor during challenge was able to rescue recall proliferation of "unhelped" memory CD8 T cells.