技术资料

Interleukin 17 (IL-17)-producing CD4(+) helper T cells (T(H)-17 cells) share a developmental relationship with Foxp3(+) regulatory T cells (T(reg) cells). Here we show that a T(H)-17 population differentiates in the thymus in a manner influenced by recognition of self antigen and by the cytokines IL-6 and transforming growth factor-beta (TGF-beta). Like previously described T(H)-17 cells,the T(H)-17 cells that developed in the thymus expressed the transcription factor RORgamma t and the IL-23 receptor. These cells also expressed alpha(4)beta(1) integrins and the chemokine receptor CCR6 and were recruited to the lung,gut and liver. In the liver,these cells secreted IL-22 in response to self antigen and mediated host protection during inflammation. Thus,T(H)-17 cells,like T(reg) cells,can be selected by self antigens in the thymus. View Publication

Because IL-1beta plays an important role in inflammation in human and murine arthritis,we investigated the contribution of the inflammasome components ASC,NALP-3,IPAF,and caspase-1 to inflammatory arthritis. We first studied the phenotype of ASC-deficient and wild-type mice during Ag-induced arthritis (AIA). ASC(-/-) mice showed reduced severity of AIA,decreased levels of synovial IL-1beta,and diminished serum amyloid A levels. In contrast,mice deficient in NALP-3,IPAF,or caspase-1 did not show any alteration of joint inflammation,thus indicating that ASC associated effects on AIA are independent of the classical NALP-3 or IPAF inflammasomes. Because ASC is a ubiquitous cytoplasmic protein that has been implicated in multiple cellular processes,we explored other pathways through which ASC may modulate inflammation. Ag-specific proliferation of lymph node and spleen cells from ASC-deficient mice was significantly decreased in vitro,as was the production of IFN-gamma,whereas IL-10 production was enhanced. TCR ligation by anti-CD3 Abs in the presence or absence of anti-CD28 Abs induced a reduction in T cell proliferation in ASC(-/-) T cells compared with wild-type ones. In vivo lymph node cell proliferation was also significantly decreased in ASC(-/-) mice,but no effects on apoptosis were observed either in vitro or in vivo in these mice. In conclusion,these results strongly suggest that ASC modulates joint inflammation in AIA through its effects on cell-mediated immune responses but not via its implication in inflammasome formation. View Publication

IL-12 is a potent proinflammatory cytokine. The effects of IL-12 are thought to be mediated by IFN-gamma production by NK,NKT,and T cells. In this study,we show that although IL-12 stimulates NK and NK1.1(+) T cells in bulk mouse splenocytes,it does not significantly stimulate purified NK cells,indicating that other cells are required. IL-12 stimulates T cell-deficient spleen cells and those depleted of macrophages. Unexpectedly,the depletion of dendritic cells also has little effect on the stimulation of spleen cells with IL-12. In contrast,B cell depletion almost completely inhibits IL-12-induced IFN-gamma production and B cell-deficient spleen cells are poorly stimulated with IL-12. Furthermore,purified NK cells are stimulated with IL-12 in the presence of purified B cells. Thus,B cells are necessary and also sufficient for the stimulation of purified NK cells with IL-12. Whereas spleen cells from IL-18-deficient mice are not stimulated with IL-12,NK cells purified from IL-18-deficient mice are stimulated with IL-12 in the presence of wild-type (WT) B cells,and WT NK cells are not stimulated with IL-12 in the presence of IL-18-deficient B cells. Cell contact between B and NK cells is also required for IL-12-induced IFN-gamma production. Finally,B cell-deficient mice injected with IL-12 produce significantly less IFN-gamma and IL-18 in the sera than WT mice do. Thus,stimulation of NK cells with IL-12 requires B cell cooperation in vitro as well as in vivo. View Publication

Mesenteric lymph node (mLN) CD103 (alphaE integrin)(+) dendritic cells (DCs) induce regulatory T cells and gut tolerance. However,the function of intestinal CD103(-) DCs remains to be clarified. CD47 is the ligand of signal regulatory protein alpha (SIRPalpha) and promotes SIRPalpha(+) myeloid cell migration. We first show that mucosal CD103(-) DCs selectively express SIRPalpha and that their frequency was augmented in the lamina propria and mLNs of mice that developed Th17-biased colitis in response to trinitrobenzene sulfonic acid. In contrast,the percentage of SIRPalpha(+)CD103(-) DCs and Th17 responses were decreased in CD47-deficient (CD47 knockout [KO]) mice,which remained protected from colitis. We next demonstrate that transferring wild-type (WT),but not CD47 KO,SIRPalpha(+)CD103(-) DCs in CD47 KO mice elicited severe Th17-associated wasting disease. CD47 expression was required on the SIRPalpha(+)CD103(-) DCs for efficient trafficking to mLNs in vivo,whereas it was dispensable on both DCs and T cells for Th17 polarization in vitro. Finally,administration of a CD47-Fc molecule resulted in reduced SIRPalpha(+)CD103(-) DC-mediated Th17 responses and the protection of WT mice from colitis. We thus propose SIRPalpha(+)CD103(-) DCs as a pathogenic DC subset that drives Th17-biased responses and colitis,and the CD47-SIRPalpha axis as a potential therapeutic target for inflammatory bowel disease. View Publication

The hypothesis that bystander inflammatory signals promote memory B cell (B(MEM)) self-renewal and differentiation in an antigen-independent manner is critically evaluated herein. To comprehensively address this hypothesis,a detailed analysis is presented examining the response profiles of B-2 lineage B220(+)IgG(+) B(MEM) toward cognate protein antigen in comparison to bystander inflammatory signals. After in vivo antigen encounter,quiescent B(MEM) clonally expand. Surprisingly,proliferating B(MEM) do not acquire germinal center (GC) B cell markers before generating daughter B(MEM) and differentiating into plasma cells or form structurally identifiable GCs. In striking contrast to cognate antigen,inflammatory stimuli,including Toll-like receptor agonists or bystander T cell activation,fail to induce even low levels of B(MEM) proliferation or differentiation in vivo. Under the extreme conditions of adjuvanted protein vaccination or acute viral infection,no detectable bystander proliferation or differentiation of B(MEM) occurred. The absence of a B(MEM) response to nonspecific inflammatory signals clearly shows that B(MEM) proliferation and differentiation is a process tightly controlled by the availability of cognate antigen. View Publication

Murine CMV (MCMV) establishes a systemic,low-level persistent infection resulting in the accumulation of CD8(+) T cells specific for a subset of viral epitopes,a process called memory inflation. Although replicating virus is rarely detected in chronically infected C57BL/6 mice,these inflationary cells display a phenotype suggestive of repeated Ag stimulation,and they remain functional. CD4(+) T cells have been implicated in maintaining the function and/or number of CD8(+) T cells in other chronic infections. Moreover,CD4(+) T cells are essential for complete control of MCMV. Thus,we wondered whether CD4(+) T cell deficiency would result in impaired MCMV-specific CD8(+) T cell responses. Here we show that CD4(+) T cell deficiency had an epitope-specific impact on CD8(+) T cell memory inflation. Of the three codominant T cell responses during chronic infection,only accumulation of the late-appearing IE3-specific CD8(+) T cells was substantially impaired in CD4(+) T cell-deficient mice. Moreover,the increased viral activity did not drive increased CD8(+) T cell division or substantial dysfunction in any MCMV-specific population that we studied. These data show that CD4(+) T cell help is needed for inflation of a response that develops only during chronic infection but is otherwise dispensable for the steady state maintenance and function of MCMV-specific CD8(+) T cells. View Publication

Retroviruses can establish persistent infection despite induction of a multipartite antiviral immune response. Whether collective failure of all parts of the immune response or selective deficiency in one crucial part underlies the inability of the host to clear retroviral infections is currently uncertain. We examine here the contribution of virus-specific CD4(+) T cells in resistance against Friend virus (FV) infection in the murine host. We show that the magnitude and duration of the FV-specific CD4(+) T-cell response is directly proportional to resistance against acute FV infection and subsequent disease. Notably,significant protection against FV-induced disease is afforded by FV-specific CD4(+) T cells in the absence of a virus-specific CD8(+) T-cell or B-cell response. Enhanced spread of FV infection in hosts with increased genetic susceptibility or coinfection with Lactate dehydrogenase-elevating virus (LDV) causes a proportional increase in the number of FV-specific CD4(+) T cells required to control FV-induced disease. Furthermore,ultimate failure of FV/LDV coinfected hosts to control FV-induced disease is accompanied by accelerated contraction of the FV-specific CD4(+) T-cell response. Conversely,an increased frequency or continuous supply of FV-specific CD4(+) T cells is both necessary and sufficient to effectively contain acute infection and prevent disease,even in the presence of coinfection. Thus,these results suggest that FV-specific CD4(+) T cells provide significant direct protection against acute FV infection,the extent of which critically depends on the ratio of FV-infected cells to FV-specific CD4(+) T cells. View Publication

We have previously shown that a granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-15 (IL-15) 'fusokine' (GIFT15) exerts immune suppression via aberrant signaling through the IL-15 receptor on lymphomyeloid cells. We show here that ex vivo GIFT15 treatment of mouse splenocytes generates suppressive regulatory cells of B cell ontogeny (hereafter called GIFT15 B(reg) cells). Arising from CD19+ B cells,GIFT15 B(reg) cells express major histocompatibility complex class I (MHCI) and MHCII,surface IgM and IgD,and secrete IL-10,akin to previously described B10 and T2-MZP B(reg) cells,but lose expression of the transcription factor PAX5,coupled to upregulation of CD138 and reciprocal suppression of CD19. Mice with experimental autoimmune encephalomyelitis went into complete remission after intravenous infusion of GIFT15 B(reg) cells paralleled by suppressed neuroinflammation. The clinical effect was abolished when GIFT15 B(reg) cells were derived from mmicroMT (lacking B cells),MHCII-knockout,signal transducer and activator of transcription-6 (STAT-6)-knockout,IL-10-knockout or allogeneic splenocytes,consistent with a pivotal role for MHCII and IL-10 by sygeneic B cells for the observed therapeutic effect. We propose that autologous GIFT15 B(reg) cells may serve as a new treatment for autoimmune ailments. View Publication

To date,studies on T cells in acute myeloid leukemia (AML) have been limited to flow cytometric analysis of whole peripheral blood mononuclear cell (PBMC) specimens or functional work looking at the impact of AML myeloblasts on normal or remission T cells. This lack of information on T cells at the time of presentation with disease is due in part to the difficulty in isolating sufficiently pure T cells from these specimens for further study. Negative immunomagnetic selection has been the method of choice for isolating immune cells for functional studies due to concerns that binding antibodies to the cell surface may induce cellular activation,block ligand-receptor interactions or result in immune clearance. In order specifically to study T cells in presentation AML specimens,we set out to develop a method of isolating highly pure CD4 and CD8 T cells by negative selection from the peripheral blood (PB) of newly diagnosed AML patients. This technique,unlike T cell selection from PB from normal individuals or from patients with chronic lymphocytic leukaemia,was extremely problematic due to properties of the leukaemic myeloblasts. A successful method was eventually optimized requiring the use of a custom antibody cocktail consisting of CD33,CD34,CD123,CD11c and CD36,to deplete myeloblasts. View Publication

The Msh2 mismatch repair (MMR) protein is critical for class switch recombination (CSR) events that occur in mice that lack the Smu tandem repeat (SmuTR) region (SmuTR(-/-) mice). The pattern of microhomology among switch junction sites in Msh2-deficient mice is also dependent on the presence or absence of SmuTR sequences. It is not known whether these CSR effects reflect an individual function of Msh2 or the function of Msh2 within the MMR machinery. In the absence of the SmuTR sequences,Msh2 deficiency nearly ablates CSR. We now show that Mlh1 or Exo1 deficiencies also eliminate CSR in the absence of the SmuTR. Furthermore,in SmuTR(-/-) mice,deficiencies of Mlh1 or Exo1 result in increased switch junction microhomology as has also been seen with Msh2 deficiency. These results are consistent with a CSR model in which the MMR machinery is important in processing DNA nicks to produce double-stranded breaks,particularly in sequences where nicks are infrequent. We propose that double-stranded break paucity in MMR-deficient mice leads to increased use of an alternative joining pathway where microhomologies are important for CSR break ligation. Interestingly,when the SmuTR region is present,deficiency of Msh2 does not lead to the increased microhomology seen with Mlh1 or Exo1 deficiencies,suggesting that Msh2 might have an additional function in CSR. It is also possible that the inability to initiate MMR in the absence of Msh2 results in CSR junctions with less microhomology than joinings that occur when MMR is initiated but then proceeds abnormally due to Mlh1 or Exo1 deficiencies. View Publication