A role for endogenous IL-12 in tumor immunity: IL-12 is required for the acquisition of tumor-migratory capacity by T cells and the development of T cell-accepting capacity in tumor masses.

Interleukin (IL)-12 plays a central role in the initiation and regulation of T cell-mediated immune responses. The present study investigated how IL-12, endogenously produced during tumor vaccination, functions for anti-tumor immune responses. Mice were given anti-IL-12 monoclonal antibody during immunization with attenuated syngeneic tumor cells. Splenic T cells from anti-IL-12-treated immunized mice exhibited comparable levels of tumor-neutralizing activity with those from tumor-immunized mice without anti-IL-12 treatment. When these two groups of mice were directly challenged with viable tumor cells, tumor rejection was induced only in anti-IL-12-untreated mice. T cell infiltration was observed at the site of tumor challenge in these mice, whereas such a T cell infiltration did not occur in anti-IL-12-treated mice. The tumor-migratory capacity was directly assessed by transferring spleen cells from tumor-immunized mice into syngeneic, tumor-bearing recipient mice and by quantitating donor cells migrating into recipients' tumor masses. T cells from anti-IL-12-treated tumor-immunized mice were found to exhibit a markedly reduced tumor-migratory capacity when compared with that of anti-IL-12-untreated mice. Moreover, the migration of T cells from anti-IL-12-untreated mice to tumor masses prepared in anti-IL-12-treated mice was severely reduced. These results indicate that endogenously produced IL-12 has dual roles in anti-tumor-immune resistance: One is to confer T cells with a tumor-migratory capacity, and the other is to allow tumor masses to develop the capacity to accept tumor-migrating T cells.

Protection from lethal infection by adoptive transfer of CD8 T cells genetically engineered to express virus-specific innate immune receptor.

CMV infection is one of the most common complications in immunocompromised individuals, such as organ and bone marrow transplant patients. Both innate and adaptive immune responses are required for defense against CMV infection. In murine CMV (MCMV) infection, strains harboring the MCMV-specific NK cell activation receptor, Ly49H (Klra8), are resistant. In contrast, MCMV infection of mice lacking Ly49H gene causes early mortality due to uncontrolled viral replication. In this study, we report the successful protection of mice from lethal MCMV infection with gene-transferred polyclonal CD8 T cells. CD8 T cells expressing a chimeric receptor comprising Ly49H extracellular and CD3zeta cytoplasmic domains are capable of killing target cells expressing the MCMV protein, m157. CD8 T cells expressing the chimeric receptor protect mice in vivo from lethality in the acute phase of MCMV infection, leading to the establishment of long-term protection. These data provide proof-of-principle evidence that a novel strategy for harnessing CD8 cytolytic function through TCR-independent yet pathogen-specific receptor can result in effective protection of hosts from pathogens.

Essential role of IRF-3 in lipopolysaccharide-induced interferon-beta gene expression and endotoxin shock.

Type I interferons (IFN-alpha/beta) affect many aspects of immune responses. Many pathogen-associated molecules, including bacterial lipopolysaccharide (LPS) and virus-associated double-stranded RNA, induce IFN gene expression through activation of distinct Toll-like receptors (TLRs). Although much has been studied about the activation of the transcription factor IRF-3 and induction of IFN-beta gene by the LPS-mediated TLR4 signaling, definitive evidence is missing about the actual role of IRF-3 in LPS responses in vitro and in vivo. Using IRF-3 deficient mice, we show here that IRF-3 is indeed essential for the LPS-mediated IFN-beta gene induction. Loss of IRF-3 also affects the expression of profile of other cytokine/chemokine genes. We also provide evidence that the LPS/TLR4 signaling activates IRF-7 to induce IFN-beta, if IRF-7 is induced by IFNs prior to LPS simulation. Finally, the IRF-3-deficient mice show resistance to LPS-induced endotoxin shock. These results place IRF-3 as a molecule central to LPS/TLR4 signaling.

Induction of the chemokine receptor CXCR3 on TCR-stimulated T cells: dependence on the release from persistent TCR-triggering and requirement for IFN-gamma stimulation.

The chemokine receptor CXCR3 has been shown to play a key role in the recruitment of T cells to sites of inflammation such as allografts. Here, we investigated which signals and conditions areresponsible for CXCR3 induction. CXCR3 was induced on T cells that were stimulated with anti-CD3 plus anti-CD28 monoclonal antibodies and then recultured without any external stimuli. CXCR3 expression was inhibited when TCR stimulation was persistent in the reculture. CXCR3 induction also depended on the stimulation with IFN-gamma because CXCR3 expression was not induced in IFN-gamma-deficient T cells. The induction of another Th1 chemokine receptor CCR5 absolutely required IL-12 stimulation and STAT4 involvement. In contrast, CXCR3 was induced on STAT4-deficient T cells independently of IL-12 stimulation as long as IFN-gamma was produced as a result of potent TCR stimulation. These results show that CXCR3 induction on TCR-triggered T cells requires the release of these T cells from persistent TCR signaling and the stimulation with IFN-gamma and also indicate the differential regulatory mechanisms underlying the induction of two Th1 chemokine receptors.

Selective contribution of IFN-alpha/beta signaling to the maturation of dendritic cells induced by double-stranded RNA or viral infection.

A complex mechanism may be operational for dendritic cell (DC) maturation, wherein Toll-like receptor and other signaling pathways may be coordinated differently depending on the nature of the pathogens, in order for DC maturation to be most effective to a given threat. Here, we show that IFN-alpha/beta signaling is selectively required for the maturation of DCs induced by double-stranded RNA or viral infection in vitro. Interestingly, the maturation is still observed in the absence of either of the two target genes of IFN-alpha/beta, TLR3 and PKR (double-stranded-RNA-dependent protein kinase R), indicating the complexity of the IFN-alpha/beta-induced transcriptional program in DCs. We also show that the DCs stimulated in vivo by these agents can migrate into the T cell zone of the spleen but fail to mature without the IFN signal. The immune system may have acquired the selective utilization of this cytokine system, which is essential for innate antiviral immunity, to effectively couple with the induction of adaptive immunity.