Natural killer (NK) cells are populations of lymphocytes that can be activated to mediate significant levels of cytotoxic activity and produce high levels of certain cytokines and chemokines. NK cells respond to and are important in defense against a number of different infectious agents. The first indications for this function came from the observations that virus-induced interferons alpha/beta (IFN-alpha and -beta) are potent inducers of NK cell-mediated cytotoxicity, and that NK cells are important contributors to innate defense against viral infections. In addition to IFN-alpha/beta, a wide range of other innate cytokines can mediate biological functions regulating the NK cell responses of cytotoxicity, proliferation, and gamma interferon (IFN-gamma) production. Certain, but not all, viral infections induce interleukin 12 (IL-12) to elicit NK cell IFN-gamma production and antiviral mechanisms. However, high levels of IFN-alpha/beta appear to be unique and/or uniquely dominant in the context of viral infections and act to regulate other innate responses, including induction of NK cell proliferation in vivo and overall negative regulation of IL-12 production. A detailed picture is developing of particular innate cytokines activating NK cell responses and their consorted effects in providing unique endogenous milieus promoting downstream adaptive responses, most beneficial in defense against viral infections.
Viral infections induce CD8 T cell expansion and interferon (IFN)-γ production for defense, but the innate cytokines shaping these responses have not been identified. Although interleukin (IL)-12 has the potential to contribute, IL-12–dependent T cell IFN-γ has not been detected during viral infections. Moreover, certain viruses fail to induce IL-12, and elicit high levels of IFN-α/β to negatively regulate it. The endogenous factors promoting virus-induced T cell IFN-γ production were defined in studies evaluating CD8 T cell responses during lymphocytic choriomeningitis virus infections of mice. Two divergent supporting pathways were characterized. Under normal conditions of infections, the CD8 T cell IFN-γ response was dependent on endogenous IFN-α/β effects, but was IL-12 independent. In contrast, in the absence of IFN-α/β functions, an IL-12 response was revealed and substituted an alternative pathway to IFN-γ. IFN-α/β–mediated effects resulted in enhanced, but the alternative pathway also promoted, resistance to infection. These observations define uniquely important IFN-α/β–controlled pathways shaping T cell responses during viral infections, and demonstrate plasticity of immune responses in accessing divergent innate mechanisms to achieve similar ultimate goals.
Induction of high systemic levels of type 1 interferons (IFNs) IFN-alpha and IFN-beta is a hallmark of many viral infections. In addition to their potent antiviral effects, these cytokines mediate a number of immunoregulatory functions and can promote IFN-gamma expression in T cells. However, during viral infections of mice IFN-gamma production is not always observed at the same time as systemic IFN-alpha/beta production and when, elicited at these times, is IFN-alpha/beta-independent. We demonstrate that type 1 interferons not only fail to induce, but also act to inhibit, IFN-gamma expression by both NK and T cells. The mechanism of inhibition is dependent upon the IFN-alpha/beta receptor and the signal transducer and activator of transcription 1 (STAT1). In the absence of STAT1, not only are the IFN-alpha/beta-mediated inhibitory effects completely abrogated, but the cytokines themselves can induce IFN-gamma expression. These results indicate that endogenous biochemical pathways are in place to negatively regulate NK and T cell IFN-gamma expression elicited by IFN-alpha/beta or other stimuli, at times of innate responses to viral infections. They also show that type 1 interferon signaling can occur through STAT1-dependent and independent mechanisms and suggest that efficient induction of IFN-gamma expression by IFN-alpha/beta requires STAT1 regulation. Such immunoregulatory pathways may be critical for shaping the endogenous innate and virus-specific adaptive immune responses to viral infections.
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