技术资料

According to the current model of adult hematopoiesis,differentiation of pluripotential hematopoietic stem cells into common myeloid- and lymphoid-committed progenitors establishes an early separation between the myeloid and lymphoid lineages. This report describes a rare and previously unidentified CD45R-CD19+ B cell progenitor population in postnatal bone marrow that can also generate macrophages. In addition to the definition of this B-lineage intermediate,the data indicate that a developmental relationship between the B and macrophage lineages is retained during postnatal hematopoiesis. View Publication

SHIP is an important regulator of immune cell signaling that functions to dephosphorylate the phosphoinositide phosphatidylinositol 3,4,5-trisphosphate at the plasma membrane and mediate protein-protein interactions. One established paradigm for SHIP activation involves its recruitment to the phospho-ITIM motif of the inhibitory receptor FcγRIIB. Although SHIP is essential for the inhibitory function of FcγRIIB,it also has critical modulating functions in signaling initiated from activating immunoreceptors such as B cell Ag receptor. In this study,we found that SHIP is indistinguishably recruited to the plasma membrane after BCR stimulation with or without FcγRIIB coligation in human cell lines and primary cells. Interestingly,fluorescence recovery after photobleaching analysis reveals differential mobility of SHIP-enhanced GFP depending on the mode of stimulation,suggesting that although BCR and FcγRIIB can both recruit SHIP,this occurs via distinct molecular complexes. Mutagenesis of a SHIP-enhanced GFP fusion protein reveals that the SHIP-Src homology 2 domain is essential in both cases whereas the C terminus is required for recruitment via BCR stimulation,but is less important with FcγRIIB coligation. Experiments with pharmacological inhibitors reveal that Syk activity is required for optimal stimulation-induced membrane localization of SHIP,whereas neither PI3K or Src kinase activity is essential. BCR-induced association of SHIP with binding partner Shc1 is dependent on Syk,as is tyrosine phosphorylation of both partners. Our results indicate that FcγRIIB is not uniquely able to promote membrane recruitment of SHIP,but rather modulates its function via formation of distinct signaling complexes. Membrane recruitment of SHIP via Syk-dependent mechanisms may be an important factor modulating immunoreceptor signaling. View Publication

Human monoclonal antibodies against RSV have high potential for use as prophylaxis or therapeutic molecules,and they also can be used to define the structure of protective epitopes for rational vaccine design. In the past,however,isolation of human monoclonal antibodies was difficult and inefficient. Here,we describe contemporary methods for activation and proliferation of primary human memory B cells followed by cytofusion to non-secreting myeloma cells by dielectrophoresis to generate human hybridomas secreting RSV-specific monoclonal antibodies. We also provide experimental methods for screening human B cell lines to obtain RSV-specific lines,especially lines secreting neutralizing antibodies. View Publication

Type 1 diabetes (T1D) is characterized by a chronic,progressive autoimmune attack against pancreas-specific antigens,effecting the destruction of insulin-producing β-cells. Here we show interleukin-2 (IL-2) is a non-pancreatic autoimmune target in T1D. Anti-IL-2 autoantibodies,as well as T cells specific for a single orthologous epitope of IL-2,are present in the peripheral blood of non-obese diabetic (NOD) mice and patients with T1D. In NOD mice,the generation of anti-IL-2 autoantibodies is genetically determined and their titre increases with age and disease onset. In T1D patients,circulating IgG memory B cells specific for IL-2 or insulin are present at similar frequencies. Anti-IL-2 autoantibodies cloned from T1D patients demonstrate clonality,a high degree of somatic hypermutation and nanomolar affinities,indicating a germinal centre origin and underscoring the synergy between cognate autoreactive T and B cells leading to defective immune tolerance. View Publication

The extrafollicular (EF) plasmablast response to self-antigens that contain Toll-like receptor (TLR) ligands is prominent in murine lupus models and some bacterial infections,but the inhibitors and activators involved have not been fully delineated. Here,we used two conventional dendritic cell (cDC) depletion systems to investigate the role of cDCs on a classical TLR-dependent autoreactive EF response elicited in rheumatoid-factor B cells by DNA-containing immune complexes. Contrary to our hypothesis,cDC depletion amplified rather than dampened the EF response in Fas-intact but not Fas-deficient mice. Further,we demonstrated that cDC-dependent regulation requires Fas and Fas ligand (FasL) expression by T cells,but not Fas expression by B cells. Thus,cDCs activate FasL-expressing T cells that regulate Fas-expressing extrafollicular helper T (Tefh) cells. These studies reveal a regulatory role for cDCs in B cell plasmablast responses and provide a mechanistic explanation for the excess autoantibody production observed in Fas deficiency. View Publication

The aryl hydrocarbon receptor (AhR),a transcription factor known for mediating xenobiotic toxicity,is expressed in B cells,which are known targets for environmental pollutants. However,it is unclear what the physiological functions of AhR in B cells are. We show here that expression of Ahr in B cells is up-regulated upon B-cell receptor (BCR) engagement and IL-4 treatment. Addition of a natural ligand of AhR,FICZ,induces AhR translocation to the nucleus and transcription of the AhR target gene Cyp1a1,showing that the AhR pathway is functional in B cells. AhR-deficient (Ahr(-/-)) B cells proliferate less than AhR-sufficient (Ahr(+/+)) cells following in vitro BCR stimulation and in vivo adoptive transfer models confirmed that Ahr(-/-) B cells are outcompeted by Ahr(+/+) cells. Transcriptome comparison of AhR-deficient and AhR-sufficient B cells identified cyclin O (Ccno),a direct target of AhR,as a top candidate affected by AhR deficiency. View Publication

Regulatory T cell (Treg) therapy has the potential to induce transplantation tolerance so that immunosuppression and associated morbidity can be minimized. Alloantigen-reactive Tregs (arTregs) are more effective at preventing graft rejection than polyclonally expanded Tregs (PolyTregs) in murine models. We have developed a manufacturing process to expand human arTregs in short-term cultures using good manufacturing practice-compliant reagents. This process uses CD40L-activated allogeneic B cells to selectively expand arTregs followed by polyclonal restimulation to increase yield. Tregs expanded 100- to 1600-fold were highly alloantigen reactive and expressed the phenotype of stable Tregs. The alloantigen-expanded Tregs had a diverse TCR repertoire. They were more potent than PolyTregs in vitro and more effective at controlling allograft injuries in vivo in a humanized mouse model. View Publication

Adaptive immunity to self-antigens causes autoimmune disorders,such as multiple sclerosis,psoriasis and type 1 diabetes; paradoxically,T- and B-cell responses to amyloid-$\$(A$\$) reduce Alzheimer's disease (AD)-associated pathology and cognitive impairment in mouse models of the disease. The manipulation of adaptive immunity has been a promising therapeutic approach for the treatment of AD,although vaccine and anti-A$\$ approaches have proven difficult in patients,thus far. CD4(+) T cells have a central role in regulating adaptive immune responses to antigens,and A$\$-specific CD4(+) T cells have been shown to reduce AD pathology in mouse models. As these cells may facilitate endogenous mechanisms that counter AD,an evaluation of their abundance before and during AD could provide important insights. A$\$-CD4see is a new assay developed to quantify A$\$-specific CD4(+) T cells in human blood,using dendritic cells derived from human pluripotent stem cells. In tests of textgreater50 human subjects A$\$-CD4see showed an age-dependent decline of A$\$-specific CD4(+) T cells,which occurs earlier in women than men. In aggregate,men showed a 50% decline in these cells by the age of 70 years,but women reached the same level before the age of 60 years. Notably,women who carried the AD risk marker apolipoproteinE-ɛ4 (ApoE4) showed the earliest decline,with a precipitous drop between 45 and 52 years,when menopause typically begins. A$\$-CD4see requires a standard blood draw and provides a minimally invasive approach for assessing changes in A$\$ that may reveal AD-related changes in physiology by a decade. Furthermore,CD4see probes can be modified to target any peptide,providing a powerful new tool to isolate antigen-specific CD4(+) T cells from human subjects. View Publication

The paracaspase MALT1 plays an important role in immune receptor-driven signaling pathways leading to NF-κB activation. MALT1 promotes signaling by acting as a scaffold,recruiting downstream signaling proteins,as well as by proteolytic cleavage of multiple substrates. However,the relative contributions of these two different activities to T and B cell function are not well understood. To investigate how MALT1 proteolytic activity contributes to overall immune cell regulation,we generated MALT1 protease-deficient mice (Malt1(PD/PD)) and compared their phenotype with that of MALT1 knockout animals (Malt1(-/-)). Malt1(PD/PD) mice displayed defects in multiple cell types including marginal zone B cells,B1 B cells,IL-10-producing B cells,regulatory T cells,and mature T and B cells. In general,immune defects were more pronounced in Malt1(-/-) animals. Both mouse lines showed abrogated B cell responses upon immunization with T-dependent and T-independent Ags. In vitro,inactivation of MALT1 protease activity caused reduced stimulation-induced T cell proliferation,impaired IL-2 and TNF-α production,as well as defective Th17 differentiation. Consequently,Malt1(PD/PD) mice were protected in a Th17-dependent experimental autoimmune encephalomyelitis model. Surprisingly,Malt1(PD/PD) animals developed a multiorgan inflammatory pathology,characterized by Th1 and Th2/0 responses and enhanced IgG1 and IgE levels,which was delayed by wild-type regulatory T cell reconstitution. We therefore propose that the pathology characterizing Malt1(PD/PD) animals arises from an immune imbalance featuring pathogenic Th1- and Th2/0-skewed effector responses and reduced immunosuppressive compartments. These data uncover a previously unappreciated key function of MALT1 protease activity in immune homeostasis and underline its relevance in human health and disease. View Publication