In humans, the type I interferon (IFN) family consists of 13 IFN- § subtypes, IFN-g and IFN-J ; the newly discovered IFN-like family consists of IFN-Q 1, -Q 2 and -Q 3. We have investigated the expression of type I and Q IFN genes following virus infections or Toll-like receptor (TLR) triggering in monocyte-derived DC (MDDC) and plasmacytoid DC (pDC). We found that all IFN- § , -g , -J and -Q subtypes are expressed in influenza-virus-infected MDDC or pDC. Conversely, differential type I IFN gene transcription was induced in MDDC and pDC stimulated by specific TLR agonists. TLR-9 stimulation by CpG DNA induced the expression of all IFN- § , -g , -J and -Q subtypes in pDC, whereas TLR-4 stimulation by LPS, or TLR-3 stimulation by poly I:C, induced only IFN-g and IFN-Q gene expression in MDDC. The expression pattern of IFN regulatory factor (IRF)-5 and IRF-7 in MDDC and pDC was also determined. IRF-5 was constitutively expressed in the two DC subsets whereas IRF-7 was constitutive in pDC but its expression was induced along MDDC maturation. Overall, our data indicate that the coordinated expression of IFN-Q with IFN-g would be of crucial importance for the maturation of DC.
Macrophages and dendritic cells (DC) play an essential role in the initiation and maintenance of immune response to pathogens. To analyze early interactions between Mycobacterium tuberculosis (Mtb) and immune cells, human peripheral blood monocyte-derived macrophages (MDM) and monocyte-derived dendritic cells (MDDC) were infected with Mtb. Both cells were found to internalize the mycobacteria, resulting in the activation of MDM and maturation of MDDC as reflected by enhanced expression of several surface Ags. After Mtb infection, the proinflammatory cytokines TNF-α, IL-1, and IL-6 were secreted mainly by MDM. As regards the production of IFN-γ-inducing cytokines, IL-12 and IFN-α, was seen almost exclusively from infected MDDC, while IL-18 was secreted preferentially by macrophages. Moreover, Mtb-infected MDM also produce the immunosuppressive cytokine IL-10. Because IL-10 is a potent inhibitor of IL-12 synthesis from activated human mononuclear cells, we assessed the inhibitory potential of this cytokine using soluble IL-10R. Neutralization of IL-10 restored IL-12 secretion from Mtb-infected MDM. In line with these findings, supernatants from Mtb-infected MDDC induced IFN-γ production by T cells and enhanced IL-18R expression, whereas supernatants from MDM failed to do that. Neutralization of IFN-α, IL-12, and IL-18 activity in Mtb-infected MDDC supernatants by specific Abs suggested that IL-12 and, to a lesser extent, IFN-α and IL-18 play a significant role in enhancing IFN-γ synthesis by T cells. During Mtb infection, macrophages and DC may have different roles: macrophages secrete proinflammatory cytokines and induce granulomatous inflammatory response, whereas DC are primarily involved in inducing antimycobacterial T cell immune response.
As a result of their close association with the blood-brain barrier, astrocytes play an important role in regulating the homing of different leukocyte subsets to the inflamed central nervous system (CNS). In this study, we investigated whether human astrocytes produce chemokines that promote the migration of myeloid dendritic cells (DCs). By reverse transcriptase-polymerase chain reaction and enzyme-linked immunosorbent assay, we show that cultured human astrocytes stimulated with interleukin-1beta and tumor necrosis factor produce CCL2, CCL3, CCL4, CCL5, CCL20, and CXCL12 that act on immature DCs, but not CCL19 and CCL21, 2 chemokines specific for mature DCs. Compared with controls, supernatants of cytokine-stimulated astrocytes are more effective in promoting the migration of immature monocyte-derived DCs (iMDDCs). Desensitization of CXCR4 (receptor for CXCL12), CCR1-3-5 (shared receptors for CCL3-4-5), and CCR6 (receptor for CCL20) on iMDDC reduces cell migration toward astrocyte supernatants, indicating that astrocytes release biologically relevant amounts of iMDDC-attracting chemokines. By immunohistochemistry, we show that CXCL12 and, to a lesser extent, CCL20 are expressed by reactive astrocytes in multiple sclerosis lesions. These data lend support to the idea that astrocyte-derived chemokines may contribute to immature DC recruitment to the inflamed CNS.
We recently reported that dendritic cells (DC) infected with Mycobacterium tuberculosis (Mtb) produce Th1/IFN-γ-inducing cytokines, IFN-αβ and IL-12. In the present article, we show that maturing Mtb-infected DC express high levels of CCR7 and they become responsive to its ligand CCL21. Conversely, CCR5 expression was rapidly lost from the cell surface following Mtb infection. High levels of CCL3 and CCL4 were produced within 8 h after infection, which is likely to account for the observed CCR5 down-modulation on Mtb-infected DC. In addition, Mtb infection stimulated the secretion of CXCL9 and CXCL10. Interestingly, the synthesis of CXCL10 was mainly dependent on the Mtb-induced production of IFN-αβ. Indeed, IFN-αβ neutralization down-regulated CXCL10 expression, whereas the expression of CXCL9 appeared to be unaffected. The chemotactic activity of the Mtb-infected DC supernatants was evaluated by migration assays using activated NK, CD4+, and CD8+ cells that expressed both CCR5 and CXCR3. Mtb-induced expression of CCL3, CCL4, CXCL9, and CXCL10 was involved in the stimulation of NK and T cell migration. In accordance with the data on the IFN-αβ-induced expression of CXCL10, neutralization of IFN-αβ significantly reduced the chemotactic activity of the supernatant from Mtb-infected DC. This indicates that IFN-αβ may modulate the immune response through the expression of CXCL10, which along with CXCL9, CCL3, and CCL4 participates in the recruitment and selective homing of activated/effector cells, which are known to accumulate at the site of Mtb infection and take part in the formation of the granulomas.
Type I IFN regulates different aspects of the immune response, inducing a cell-mediated immunity. We have recently shown that the infection of dendritic cells (DC) with Mycobacterium tuberculosis (Mtb) induces IFN-α. In this work we have monitored a rapid induction of IFN-β followed by the delayed production of the IFN-α1 and/or -α13 subtypes. The Mtb infection rapidly activates the NF-κB complex and stimulates the phosphorylation of IFN regulatory factor (IRF)-3, events known to induce IFN-β expression in viral infection. In turn, the autocrine production of IFN-β induces the IFN-stimulated genes that contain binding sites for activated STATs in their promoters. Among the IFN-stimulated genes induced in DC through STAT activation are IRF-1 and IRF-7. The expression of IRF-1 appears to be dependent on the sequential activation of NF-κB and STAT-1. Once expressed, IRF-1 may further stimulate the transcription of IFN-β. Induction of IRF-7 is also regulated at the transcriptional level through the binding of phosphorylated STAT-1 and STAT-2, forming the IFN-stimulated gene factor-3 complex. In turn, the IRF-1 and IRF-7 expression appears to be required for the delayed induction of the IFN-α1/13 genes. Although correlative, our results strongly support the existence of a cascade of molecular events in Mtb-infected DC. Upon infection, constitutively expressed NF-κB and IRF-3 are activated and likely contribute to the rapid IFN-β expression. In turn, IFN-β-induced IRF-1 and IRF-7 may cooperate toward induction of IFN-α1/13 if infection persists and these factors are activated.
Dendritic cells (DCs) are thought to play a key role in driving the immunopathogenic response underlying chronic inflammatory arthritis. In this study, we have examined the presence and phenotype of plasmacytoid DCs (pDCs) in the synovial fluids (SF) of patients with rheumatoid arthritis (RA), psoriatic arthritis (PA), and osteoarthritis (OA) and determined the chemotactic properties of SF from these patients toward pDCs. Flow cytometry analysis showed that the percentage of pDCs, identified as a population of Lin−CD123++ cells, is 4- to 5-fold higher in RA SF and PA SF than in OA SF. The morphological and immunophenotypic characterization of pDCs isolated from PA and RA SF indicates that they are in an immature state, most likely due to inhibitory factors present in RA SF, but are still able to undergo maturation when exposed ex vivo to viral agent or unmethylated DNA. CD123+ and BDCA2+ pDCs were detected by immunohistochemistry in RA synovial tissue in which expression of the IFN-α-inducible protein MxA was also found, suggesting production of type I IFN by maturing pDCs. We also show that CXCR3 and CXCR4 are expressed by both blood-derived pDCs and pDCs isolated from RA and PA SF and that CXCL-10, CXCL-11, and CXCL-12 present in RA and PA SF stimulate chemotaxis of blood-derived pDCs. Altogether, these findings suggest that chemokine-driven recruitment of pDCs from the blood to the inflamed synovium could be important in the regulation of the immune response in chronic inflammatory arthritis.
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