CD8+ T cell responses can be generated against antigens that are not expressed directly within antigen-presenting cells (APCs), through a process known as cross-priming. To initiate cross-priming, APCs must both capture extracellular antigen and receive specific activation signals. We have investigated the nature of APC activation signals associated with virus infection that stimulate cross-priming. We show that infection with lymphocytic choriomeningitis virus induces cross-priming by a mechanism dependent on type I interferon (IFN-alpha/beta). Activation of cross-priming by IFN-alpha/beta was independent of CD4+ T cell help or interaction of CD40 and CD40 ligand, and involved direct stimulation of dendritic cells. These data identify expression of IFN-alpha/beta as a mechanism for the induction of cross-priming during virus infections.
Type I IFN (IFN-αβ) is induced rapidly by infection and plays a key role in innate antiviral defense. IFN-αβ also exerts stimulatory effects on the adaptive immune system and has been shown to enhance Ab and T cell responses. We have investigated the importance of B and T cells as direct targets of IFN-αβ during IFN-α-mediated augmentation of the Ab response against a soluble protein Ag. Strikingly, the ability of IFN-α to stimulate the Ab response and induce isotype switching was markedly reduced in mice in which B cells were selectively deficient for the IFN-αβR. Moreover, IFN-α-mediated enhancement of the Ab response was also greatly impaired in mice in which T cells were selectively IFN-αβR-deficient. These results indicate that IFN-αβR signaling in both B and T cells plays an important role in the stimulation of Ab responses by IFN-αβ.
Type I IFN (IFN-αβ), which is produced rapidly in response to infection, plays a key role in innate immunity and also acts as a stimulus for the adaptive immune response. We have investigated how IFN-αβ induces cross-priming, comparing CD8+ T cell responses generated against soluble protein Ags in the presence or absence of IFN-αβ. Injection of IFN-α was found to prolong the proliferation and expansion of Ag-specific CD8+ T cells, which was associated with marked up-regulation of IL-2 and IL-15 receptors on Ag-specific cells and expression of IL-15 in the draining lymph node. Surprisingly, neither IL-2 nor IL-15 was required for IFN-α-induced cross-priming. Conversely, expression of the IFN-αβR by T cells was shown to be necessary for effective stimulation of the response by IFN-α. The finding that T cells represent direct targets of IFN-αβ-mediated stimulation reveals an additional mechanism by which the innate response to infection promotes adaptive immunity.
Under physiological conditions, T cell activation by major histocompatibility complex (MHC)-antigen complexes requires engagement of both the T cell receptor (TcR) and the CD4 (or CD8) accessory molecules. It has been shown, however, that ligation of CD4 and CD8 can also inhibit T cell activation in an MHC-independent way. Therefore, the role of CD4 in T cell activation and the mechanism of the suppression of T cell functions by anti-CD4 are as yet unclear. We activated T cells by CD4/CD3 co-cross-linking and studied the effect of preincubation with anti-CD4 on this activation. We show here that anti-CD4 effects T cell activation in a complex, time-dependent manner. Whereas short preincubations with anti-CD4 usually enhanced T cell proliferation in response to subsequent co-cross-linking of CD3 with CD4, longer preincubations led to its decrease. The observed suppression of proliferation after a long preincubation with anti-CD4 was apparently due to impairment of TcR signaling, as assessed by measurement of Ca2+ mobilization and tyrosine phosphorylation in T cells. These results add a temporal element to the previously observed synergism between the TcR and CD4 in T cell activation.
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