技术资料

Studies have suggested involvement of interleukin 17 (IL-17) in autoimmune diseases,although its effect on B cell biology has not been clearly established. Here we demonstrate that IL-17 alone or in combination with B cell-activating factor controlled the survival and proliferation of human B cells and their differentiation into immunoglobulin-secreting cells. This effect was mediated mainly through the nuclear factor-kappaB-regulated transcription factor Twist-1. In support of the relevance of our observations and the potential involvement of IL-17 in B cell biology,we found that the serum of patients with systemic lupus erythematosus had higher concentrations of IL-17 than did the serum of healthy people and that IL-17 abundance correlated with the disease severity of systemic lupus erythematosus. View Publication

The development of mature blood cells from hematopoietic stem cells requires coordinated activities of transcriptional networks. Transcriptional repressor growth factor independence 1 (Gfi-1) is required for the development of B cells,T cells,neutrophils,and for the maintenance of hematopoietic stem cell function. However,the mechanisms by which Gfi-1 regulates hematopoiesis and how Gfi-1 integrates into transcriptional networks remain unclear. Here,we provide evidence that Id2 is a transcriptional target of Gfi-1,and repression of Id2 by Gfi-1 is required for B-cell and myeloid development. Gfi-1 binds to 3 conserved regions in the Id2 promoter and represses Id2 promoter activity in transient reporter assays. Increased Id2 expression was observed in multipotent progenitors,myeloid progenitors,T-cell progenitors,and B-cell progenitors in Gfi-1(-/-) mice. Knockdown of Id2 expression or heterozygosity at the Id2 locus partially rescues the B-cell and myeloid development but not the T-cell development in Gfi-1(-/-) mice. These studies demonstrate a role of Id2 in mediating Gfi-1 functions in B-cell and myeloid development and provide a direct link between Gfi-1 and the B-cell transcriptional network by its ability to repress Id2 expression. View Publication

The B cell-activating factor of the TNF family receptor (BAFF-R),encoded by the TNFRSF13C gene,is critically important for transitional B cell survival to maturity. Thus,ligation of BAFF-R by BAFF delivers a potent survival signal. Reports implicating the BAFF/BAFF-R signaling axis in the pathogenesis of autoimmune human diseases and B lineage malignancies have largely prompted studies focusing on BAFF expression; however,there is an equally critical need to better understand BAFF-R expression. Initial BAFF-R expression,although characterized in murine B cells,has not yet been reported in human B lymphopoiesis. In this study,we first demonstrate that BAFF-R expression is absent from early precursors and is acquired by bone marrow B cells newly expressing the BCR. We next focused on identifying the specific genomic region that controls BAFF-R expression in mature B cells (i.e.,the TNFRSF13C promoter). To accomplish this,we used in silico tools examining interspecies genomic conservation in conjunction with reporter constructs transfected into malignant B and plasma cell lines. DNase protection assays using nuclear extracts from BAFF-R-expressing cells suggested potential regulatory sites,which allowed the generation of EMSA probes that bound NFs specific to BAFF-R-expressing cells. With a more stringent analysis of interspecies homology,these assays identified a site at which a single nucleotide substitution could distinctly impact promoter activity. Finally,chromatin immunoprecipitation assays revealed the in vivo binding of the specific transcription factor c-Rel to the most proximal genomic region,and c-Rel small interfering RNA transfections in BAFF-R-expressing lines demonstrated a coincident knockdown of both c-Rel and BAFF-R mRNA. View Publication

Transfusion-related acute lung injury (TRALI) is a serious complication of transfusion and has been ranked as one of the leading causes of transfusion-related fatalities. Nonetheless,many details of the immunopathogenesis of TRALI,particularly with respect to recipient factors are unknown. We used a murine model of antibody-mediated TRALI in an attempt to understand the role that recipient lymphocytes might play in TRALI reactions. Intravenous injection of an IgG2a antimurine major histocompatibility complex class I antibody (34-1-2s) into BALB/c mice induced moderate hypothermia and pulmonary granulocyte accumulation but no pulmonary edema nor mortality. In contrast,34-1-2s injections into mice with severe combined immunodeficiency caused severe hypothermia,severe pulmonary edema,and approximately 40% mortality indicating a critical role for T and B lymphocytes in suppressing TRALI reactions. Adoptive transfer of purified CD8(+) T lymphocytes or CD4(+) T cells but not CD19(+) B cells into the severe combined immunodeficiency mice alleviated the antibody-induced hypothermia,lung damage,and mortality,suggesting that T lymphocytes were responsible for the protective effect. Taken together,these results suggest that recipient T lymphocytes play a significant role in suppressing antibody-mediated TRALI reactions. They identify a potentially new recipient mechanism that controls the severity of TRALI reactions. View Publication

Gammaherpesviruses,including Kaposi sarcoma-associated herpesvirus (KSHV),establish latency in B cells. We hypothesized that the KSHV latency-associated nuclear antigen (LANA/orf73) provides a selective advantage to infected B cells by driving proliferation in response to antigen. To test this,we used LANA B-cell transgenic mice. Eight days after immunization with antigen without adjuvant,LANA mice had significantly more activated germinal center (GC) B cells (CD19(+) PNA(+) CD71(+)) than controls. This was dependent upon B-cell receptor since LANA did not restore the GC defect of CD19 knockout mice. However,LANA was able to restore the marginal zone defect in CD19 knockout mice. View Publication

Clonal expansion of B cell chronic lymphocytic leukemia (B-CLL) occurs within lymphoid tissue pseudofollicles. IL-15,a stromal cell-associated cytokine found within spleens and lymph nodes of B-CLL patients,significantly boosts in vitro cycling of blood-derived B-CLL cells following CpG DNA priming. Both IL-15 and CpG DNA are elevated in microbe-draining lymphatic tissues,and unraveling the basis for IL-15-driven B-CLL growth could illuminate new therapeutic targets. Using CpG DNA-primed human B-CLL clones and approaches involving both immunofluorescent staining and pharmacologic inhibitors,we show that both PI3K/AKT and JAK/STAT5 pathways are activated and functionally important for IL-15→CD122/ɣc signaling in ODN-primed cells expressing activated pSTAT3. Furthermore,STAT5 activity must be sustained for continued cycling of CFSE-labeled B-CLL cells. Quantitative RT-PCR experiments with inhibitors of PI3K and STAT5 show that both contribute to IL-15-driven upregulation of mRNA for cyclin D2 and suppression of mRNA for DNA damage response mediators ATM,53BP1,and MDC1. Furthermore,protein levels of these DNA damage response molecules are reduced by IL-15,as indicated by Western blotting and immunofluorescent staining. Bioinformatics analysis of ENCODE chromatin immunoprecipitation sequencing data from cell lines provides insight into possible mechanisms for STAT5-mediated repression. Finally,pharmacologic inhibitors of JAKs and STAT5 significantly curtailed B-CLL cycling when added either early or late in a growth response. We discuss how the IL-15-induced changes in gene expression lead to rapid cycling and possibly enhanced mutagenesis. STAT5 inhibitors might be an effective modality for blocking B-CLL growth in patients. View Publication

BACKGROUND Cytotoxic T lymphocyte antigen-4 (CTLA-4) limits T-cell activation and is expressed on T-regulatory cells. Human CTLA-4 deficiency results in severe immune dysregulation. Abatacept (CTLA-4 Ig) is approved for the treatment of rheumatoid arthritis (RA) and its mechanism of action is attributed to effects on T-cells. It is known that CTLA-4 modulates the expression of its ligands CD80 and CD86 on antigen presenting cells (APC) by transendocytosis. As B-cells express CD80/CD86 and function as APC,we hypothesize that B-cells are a direct target of abatacept. OBJECTIVES To investigate direct effects of abatacept on human B-lymphocytes in vitro and in RA patients. METHODS The effect of abatacept on healthy donor B-cells' phenotype,activation and CD80/CD86 expression was studied in vitro. Nine abatacept-treated RA patients were studied. Seven of these were followed up to 24 months,and two up to 12 months only and treatment response,immunoglobulins,ACPA,RF concentrations,B-cell phenotype and ACPA-specific switched memory B-cell frequency were assessed. RESULTS B-cell development was unaffected by abatacept. Abatacept treatment resulted in a dose-dependent decrease of CD80/CD86 expression on B-cells in vitro,which was due to dynamin-dependent internalization. RA patients treated with abatacept showed a progressive decrease in plasmablasts and serum IgG. While ACPA-titers only moderately declined,the frequency of ACPA-specific switched memory B-cells significantly decreased. CONCLUSIONS Abatacept directly targets B-cells by reducing CD80/CD86 expression. Impairment of antigen presentation and T-cell activation may result in altered B-cell selection,providing a new therapeutic mechanism and a base for abatacept use in B-cell mediated autoimmunity. View Publication

Missing in Metastasis (MIM),or Metastasis Suppressor 1 (MTSS1),is a highly conserved protein,which links the plasma membrane to the actin cytoskeleton. MIM has been implicated in various cancers,however,its modes of action remain largely enigmatic. Here,we performed an extensive in silico characterisation of MIM to gain better understanding of its function. We detected previously unappreciated functional motifs including adaptor protein (AP) complex interaction site and a C-helix,pointing to a role in endocytosis and regulation of actin dynamics,respectively. We also identified new functional regions,characterised with phosphorylation sites or distinct hydrophilic properties. Strong negative selection during evolution,yielding high conservation of MIM,has been combined with positive selection at key sites. Interestingly,our analysis of intra-molecular co-evolution revealed potential regulatory hotspots that coincided with reduced potentially pathogenic polymorphisms. We explored databases for the mutations and expression levels of MIM in cancer. Experimentally,we focused on chronic lymphocytic leukaemia (CLL),where MIM showed high overall expression,however,downregulation on poor prognosis samples. Finally,we propose strong conservation of MTSS1 also on the transcriptional level and predict novel transcriptional regulators. Our data highlight important targets for future studies on the role of MIM in different tissues and cancers. View Publication

In systemic lupus erythematosus,defective clearance of apoptotic debris and activation of innate cells result in a chronically activated type 1 IFN response,which can be measured in PBMCs of most patients. Metformin,a widely used prescription drug for Type 2 diabetes,has a therapeutic effect in several mouse models of lupus through mechanisms involving inhibition of oxidative phosphorylation and a decrease in CD4+ T cell activation. In this study,we report that in CD4+ T cells from human healthy controls and human systemic lupus erythematosus patients,metformin inhibits the transcription of IFN-stimulated genes (ISGs) after IFN-alpha treatment. Accordingly,metformin inhibited the phosphorylation of pSTAT1 (Y701) and its binding to IFN-stimulated response elements that control ISG expression. These effects were independent of AMPK activation or mTORC1 inhibition but were replicated using inhibitors of the electron transport chain respiratory complexes I,III,and IV. This indicates that mitochondrial respiration is required for ISG expression in CD4+ T cells and provides a novel mechanism by which metformin may exert a therapeutic effect in autoimmune diseases. View Publication

Adoptive immunotherapy is evolving to assume an increasing role in treating cancer. Most imaging studies in adoptive immunotherapy to date have focused primarily on locating tumor-specific T cells rather than understanding their effector functions. In this study,we report the development of a noninvasive imaging strategy to monitor T-cell activation in living subjects by linking a reporter gene to the Granzyme B promoter (pGB),whose transcriptional activity is known to increase during T-cell activation. Because pGB is relatively weak and does not lead to sufficient reporter gene expression for noninvasive imaging,we specifically employed 2 signal amplification strategies,namely the Two Step Transcription Amplification (TSTA) strategy and the cytomegalovirus enhancer (CMVe) strategy,to maximize firefly luciferase reporter gene expression. Although both amplification strategies were capable of increasing pGB activity in activated primary murine splenocytes,only the level of bioluminescence activity achieved with the CMVe strategy was adequate for noninvasive imaging in mice. Using T cells transduced with a reporter vector containing the hybrid pGB-CMVe promoter,we were able to optically image T-cell effector function longitudinally in response to tumor antigens in living mice. This methodology has the potential to accelerate the study of adoptive immunotherapy in preclinical cancer models. View Publication

Symptomatic dengue virus infection ranges in disease severity from an influenza-like illness to life-threatening shock. One model of the mechanism underlying severe disease proposes that weakly neutralizing,dengue serotype cross-reactive antibodies induced during a primary infection facilitate virus entry into Fc receptor-bearing cells during a subsequent secondary infection,increasing viral replication and the release of cytokines and vasoactive mediators,culminating in shock. This process has been termed antibody-dependent enhancement of infection and has significantly hindered vaccine development. Much of our understanding of this process has come from studies using mouse monoclonal antibodies (MAbs); however,antibody responses in mice typically exhibit less complexity than those in humans. A better understanding of the humoral immune response to natural dengue virus infection in humans is sorely needed. Using a high-efficiency human hybridoma technology,we isolated 37 hybridomas secreting human MAbs to dengue viruses from 12 subjects years or even decades following primary or secondary infection. The majority of the human antibodies recovered were broadly cross-reactive,directed against either envelope or premembrane proteins,and capable of enhancement of infection in vitro; few exhibited serotype-specific binding or potent neutralizing activity. Memory B cells encoding enhancing antibodies predominated in the circulation,even two or more decades following infection. Mapping the epitopes and activity of naturally occurring dengue antibodies should prove valuable in determining whether the enhancing and neutralizing activity of antibodies can be separated. Such principles could be used in the rational design of vaccines that enhance the induction of neutralizing antibodies,while lowering the risk of dengue shock syndrome. View Publication

Understanding how memory B cells are induced and relate to long-lived plasma cells is important for vaccine development. Immunity to oral vaccines has been considered short-lived because of a poor ability to develop IgA B-cell memory. Here we demonstrate that long-lived mucosal IgA memory is readily achieved by oral but not systemic immunization in mouse models with NP hapten conjugated with cholera toxin and transfer of B1-8(high)/GFP(+) NP-specific B cells. Unexpectedly,memory B cells are poorly related to long-lived plasma cells and less affinity-matured. They are α4β7-integrin(+)CD73(+)PD-L2(+)CD80(+) and at systemic sites mostly IgM(+),while 80% are IgA(+) in Peyer's patches. On reactivation,most memory B cells in Peyer's patches are GL7(-),but expand in germinal centres and acquire higher affinity and more mutations,demonstrating strong clonal selection. CCR9 expression is found only in Peyer's patches and appears critical for gut homing. Thus,gut mucosal memory possesses unique features not seen after systemic immunization. View Publication