搜索结果: 'methocult media formulations for human hematopoietic cells serum containing'

Anthrax lethal toxin (LT) is a critical virulence factor that cleaves and inactivates MAPK kinases (MAPKKs) in host cells and has been proposed as a therapeutic target in the treatment of human anthrax infections. Despite the potential use of anti-toxin agents in humans,the standard activity assays for anthrax LT are currently based on cytotoxic actions of anthrax LT that are cell-,strain-,and species-specific,which have not been demonstrated to occur in human cells. We now report that T cell proliferation and IL-2 production inversely correlate with anthrax LT levels in human cell assays. The model CD4+ T cell tumor line,Jurkat,is a susceptible target for the specific protease action of anthrax LT. Anthrax LT cleaves and inactivates MAPKKs in Jurkat cells,whereas not affecting proximal or parallel TCR signal transduction pathways. Moreover,anthrax LT specifically inhibits PMA/ionomycin- and anti-CD3-induced IL-2 production in Jurkat cells. An inhibitor of the protease activity of anthrax LT completely restores IL-2 production by anthrax LT-treated Jurkat cells. Anthrax LT acts on primary CD4+ T cells as well,cleaving MAPKKs and leading to a 95% reduction in anti-CD3-induced proliferation and IL-2 production. These findings not only will be useful in the development of new human cell-based bioassays for the activity of anthrax LT,but they also suggest new mechanisms that facilitate immune evasion by Bacillus anthracis. Specifically,anthrax LT inhibits IL-2 production and proliferative responses in CD4+ T cells,thereby blocking functions that are pivotal in the regulation of immune responses. View Publication

PURPOSE Targeting nonspecific,tumor-associated antigens (TAA) with chimeric antigen receptors (CAR) requires specific attention to restrict possible detrimental on-target/off-tumor effects. A reduced affinity may direct CAR-engineered T (CAR-T) cells to tumor cells expressing high TAA levels while sparing low expressing normal tissues. However,decreasing the affinity of the CAR-target binding may compromise the overall antitumor effects. Here,we demonstrate the prime importance of the type of intracellular signaling on the function of low-affinity CAR-T cells. EXPERIMENTAL DESIGN We used a series of single-chain variable fragments (scFv) with five different affinities targeting the same epitope of the multiple myeloma-associated CD38 antigen. The scFvs were incorporated in three different CAR costimulation designs and we evaluated the antitumor functionality and off-tumor toxicity of the generated CAR-T cells in vitro and in vivo. RESULTS We show that the inferior cytotoxicity and cytokine secretion mediated by CD38 CARs of very low-affinity (Kd {\textless} 1.9 × 10-6 mol/L) bearing a 4-1BB intracellular domain can be significantly improved when a CD28 costimulatory domain is used. Additional 4-1BB signaling mediated by the coexpression of 4-1BBL provided the CD28-based CD38 CAR-T cells with superior proliferative capacity,preservation of a central memory phenotype,and significantly improved in vivo antitumor function,while preserving their ability to discriminate target antigen density. CONCLUSIONS A combinatorial costimulatory design allows the use of very low-affinity binding domains (Kd {\textless} 1 mumol/L) for the construction of safe but also optimally effective CAR-T cells. Thus,very-low-affinity scFvs empowered by selected costimulatory elements can enhance the clinical potential of TAA-targeting CARs. View Publication

Platelets are an abundant source of CD40 ligand (CD154),an immunomodulatory and proinflammatory molecule implicated in the onset and progression of several inflammatory diseases,including systemic lupus erythematosus (SLE),diabetes,and cardiovascular disease. Heretofore considered largely restricted to activated T cells,we initiated studies to investigate the source and regulation of platelet-associated CD154. We found that CD154 is abundantly expressed in platelet precursor cells,megakaryocytes. We show that CD154 is expressed in primary human CD34+ and murine hematopoietic precursor cells only after cytokine-driven megakaryocyte differentiation. Furthermore,using several established megakaryocyte-like cells lines,we performed promoter analysis of the CD154 gene and found that NFAT,a calcium-dependent transcriptional regulator associated with activated T cells,mediated both differentiation-dependent and inducible megakaryocyte-specific CD154 expression. Overall,these data represent the first investigation of the regulation of a novel source of CD154 and suggests that platelet-associated CD154 can be biochemically modulated. View Publication

Redirecting T cells to attack cancer using engineered chimeric receptors provides powerful new therapeutic capabilities. However,the effectiveness of therapeutic T cells is constrained by the endogenous T cell response: certain facets of natural response programs can be toxic,whereas other responses,such as the ability to overcome tumor immunosuppression,are absent. Thus,the efficacy and safety of therapeutic cells could be improved if we could custom sculpt immune cell responses. Synthetic Notch (synNotch) receptors induce transcriptional activation in response to recognition of user-specified antigens. We show that synNotch receptors can be used to sculpt custom response programs in primary T cells: they can drive a la carte cytokine secretion profiles,biased T cell differentiation,and local delivery of non-native therapeutic payloads,such as antibodies,in response to antigen. SynNotch T cells can thus be used as a general platform to recognize and remodel local microenvironments associated with diverse diseases. View Publication

In this study,we analyzed IL-2-activated polyclonal natural killer (NK) cells derived from 2 patients affected by leukocyte adhesion deficiency type I (LAD1),an immunodeficiency characterized by mutations of the gene coding for CD18,the beta subunit shared by major leukocyte integrins. We show that LAD1 NK cells express normal levels of various triggering NK receptors (and coreceptors) and that mAb-mediated engagement of these receptors results in the enhancement of both NK cytolytic activity and cytokine production. Moreover,these activating NK receptors were capable of recognizing their specific ligands on target cells. Thus,LAD1 NK cells,similarly to normal NK cells,were capable of killing most human tumor cells analyzed and produced high amounts of IFN-gamma when cocultured in presence of target cells. Murine target cells represented a common exception,as they were poorly susceptible to LAD1 NK cells. Finally,LAD1 NK cells could efficiently kill or induce maturation of monocyte-derived immature dendritic cells (DCs). Altogether our present study indicates that in LAD1 patients,3 important functions of NK cells (eg,cytotoxicity,IFN-gamma production,and DC editing) are only marginally affected and provides new insight on the cooperation between activating receptors and LFA-1 in the induction of NK cell activation and function. View Publication

Retinoic acid (RA) produced by intestinal dendritic cells (DCs) imprints gut-homing specificity on lymphocytes and enhances Foxp3(+) regulatory T-cell differentiation. The expression of aldehyde dehydrogenase (ALDH) 1A in these DCs is essential for the RA production. However,it remains unclear how the steady-state ALDH1A expression is induced under specific pathogen-free (SPF) conditions. Here,we found that bone marrow-derived dendritic cells (BM-DCs) generated with granulocyte-macrophage colony-stimulating factor (GM-CSF) expressed Aldh1a2,an isoform of Aldh1a,but that fms-related tyrosine kinase 3 ligand-generated BM-DCs did not. DCs from mesenteric lymph nodes (MLN) and Peyer's patches (PP) of normal SPF mice expressed ALDH1A2,but not the other known RA-producing enzymes. Employing a flow cytometric method,we detected ALDH activities in 10-30% of PP-DCs and MLN-DCs. They were CD11c(high)CD4(-/low)CD8alpha(intermediate)CD11b(-/low) F4/80(low/intermediate)CD45RB(low)CD86(high)MHC class II(high)B220(-)CD103(+). Equivalent levels of aldehyde dehydrogenase activity (ALDHact) and ALDH1A2 expression were induced synergistically by GM-CSF and IL-4 in splenic DCs in vitro. In BM-DCs,however,additional signals via Toll-like receptors or RA receptors were required for inducing the equivalent levels. The generated ALDH1A2(+) DCs triggered T cells to express gut-homing receptors or Foxp3. GM-CSF receptor-deficient or vitamin A-deficient mice exhibited marked reductions in the ALDHact in intestinal DCs and the T cell number in the intestinal lamina propria,whereas IL-4 receptor-mediated signals were dispensable. GM-CSF(+)CD11c(-)F4/80(+) cells existed constitutively in the intestinal tissues. The results suggest that GM-CSF and RA itself are pivotal among multiple microenvironment factors that enable intestinal DCs to produce RA. View Publication

The regulatory properties of B cells have been studied in autoimmune diseases; however,their role in allergic diseases is poorly understood. We demonstrate that Semaphorin 4C (Sema4C),an axonal guidance molecule,plays a crucial role in B cell regulatory function. Mice deficient in Sema4C exhibited increased airway inflammation after allergen exposure,with massive eosinophilic lung infiltrates and increased Th2 cytokines. This phenotype was reproduced by mixed bone marrow chimeric mice with Sema4C deficient only in B cells,indicating that B lymphocytes were the key cells affected by the absence of Sema4C expression in allergic inflammation. We determined that Sema4C-deficient CD19(+)CD138(+) cells exhibited decreased IL-10 and increased IL-4 expression in vivo and in vitro. Adoptive transfer of Sema4c(-/-) CD19(+)CD138(+) cells induced marked pulmonary inflammation,eosinophilia,and increased bronchoalveolar lavage fluid IL-4 and IL-5,whereas adoptive transfer of wild-type CD19(+)CD138(+)IL-10(+) cells dramatically decreased allergic airway inflammation in wild-type and Sema4c(-/-) mice. This study identifies a novel pathway by which Th2-mediated immune responses are regulated. It highlights the importance of plasma cells as regulatory cells in allergic inflammation and suggests that CD138(+) B cells contribute to cytokine balance and are important for maintenance of immune homeostasis in allergic airways disease. Furthermore,we demonstrate that Sema4C is critical for optimal regulatory cytokine production in CD138(+) B cells. View Publication

Neutrophil apoptosis is essential for the resolution of inflammation but is delayed by several inflammatory mediators. In such terminally differentiated cells it has been uncertain whether these agents can inhibit apoptosis through transcriptional regulation of anti-death (Bcl-X(L),Mcl-1,Bcl2A1) or BH3-only (Bim,Bid,Puma) Bcl2-family proteins. We report that granulocyte/macrophage colony-stimulating factor (GM-CSF) and tumor necrosis factor (TNF)-α prevent the normal time-dependent loss of Mcl-1 and Bcl2A1 in neutrophils,and we demonstrate that they cause an NF-κB-dependent increase in Bcl-X(L) transcription/translation. We show that GM-CSF and TNF-α increase and/or maintain mRNA levels for the pro-apoptotic BH3-only protein Bid and that GM-CSF has a similar NF-κB-dependent effect on Bim transcription and BimEL expression. The in-vivo relevance of these findings was indicated by demonstrating that GM-CSF is the dominant neutrophil survival factor in lung lavage from patients with ventilator-associated pneumonia,confirming an increase in lung neutrophil Bim mRNA. Finally GM-CSF caused mitochondrial location of Bim and a switch in phenotype to a cell that displays accelerated caspase-9-dependent apoptosis. This study demonstrates the capacity of neutrophil survival agents to induce a paradoxical increase in the pro-apoptotic proteins Bid and Bim and suggests that this may function to facilitate rapid apoptosis at the termination of the inflammatory cycle. View Publication

A novel subset of human regulatory B-cells has recently been described. They arise from within the transitional B-cell subpopulation and are characterised by the production of IL-10. They appear to be of significant importance in regulating T-cell immunity in vivo. Despite this important function,the molecular mechanisms by which they control T-cell activation are incompletely defined. Here we show that transitional B-cells produced more IL-10 and expressed higher levels of IL-10 receptor after CD40 engagement compared to other B-cell subsets. Furthermore,under this stimulatory condition,CD86 expressed by transitional B-cells was down regulated and T-cell proliferation was reduced. We provide evidence to demonstrate that the down-regulation of CD86 expression by transitional B-cells was due to the autocrine effect of IL-10,which in turn leads to decreased T-cell proliferation and TNF-α production. This analysis was further extended to peripheral B-cells in kidney transplant recipients. We observed that B-cells from patients tolerant to the graft maintained higher IL-10 production after CD40 ligation,which correlates with lower CD86 expression compared to patients with chronic rejection. Hence,the results obtained in this study shed light on a new alternative mechanism by which transitional B-cells inhibit T-cell proliferation and cytokine production. View Publication

In humans,recent clinical and experimental data from hematopoietic stem cell transplantation revealed that donor-derived alloreactive NK cells exert a beneficial graft versus leukemia effect. The existence of donor-derived alloreactive NK cells can be predicted on the basis of donor killer cell Ig-like receptor (KIR) gene profile and HLA class I typing of both donor and recipient. Moreover,the size of the alloreactive NK cell population can be directly assessed by the combined use of anti-KIR-specific mAb. In this study,in an attempt to improve the definition of alloreactive NK cell subsets,we assessed the KIR genotype and phenotype in a cohort of 44 donors. This approach allowed the identification of two different KIR2DL3 alleles (KIR2DL3*005 and the novel allele KIR2DL3*015) that did not react with the anti-KIR2DL3-specific ECM41 mAb. In contrast,both alleles were recognized at the cell surface by several mAb reacting with KIR2DL2/L3/S2. Notably,KIR2DL3*005 was also stained by the anti-KIR2DL1/S1-specific EB6B and 11PB6 mAb. Functional analysis revealed that,despite its particular mAb reactivity,the specificity of KIR2DL3*005 for HLA-C molecules did not differ from that of other KIR2DL2/L3 alleles. Finally,site-directed mutagenesis demonstrated that glutamine at position 35 is required for ECM41 staining,whereas glutamic acid 35 and arginine 50 are relevant for staining with EB6B or 11PB6 mAb. Our present data represent a substantial progress in the characterization of the NK cell repertoire and an improved phenotypic/functional definition of given KIR(+) subsets. View Publication