EC:3.2.1.23 - FACTA Search

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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CD40 has been shown to play an important role in the regulation of B cell survival, proliferation and Ig class switching. The natural partner for CD40 is CD40 ligand, gp 39, which is transiently expressed on activated T cells. In vitro, CD40 ligation leads to polyclonal B cell proliferation and, in the presence of appropriate cytokines, to the secretion of Ig of various isotypes. In the present study we show that naive B cells cultured in vitro on CD40L-transfected mouse fibroblasts in the presence of two different soluble antigens (beta-galactosidase and phenyloxazolone coupled to ovalbumin) can be specifically immunized as shown by direct single cell Elispot assays or after establishment of B cell hybridomas. However, under the conditions of in vitro immunization used, all hybridomas analysed produced specific IgM antibodies only and we failed to detect cells that had switched to other isotypes. The data suggests that CD40 ligation can be used for efficient in vitro immunization against soluble antigens for IgM production but that CD40 signals even in conjunction with cytokines are insufficient to induce high rate switching.
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PMID:In vitro immunization of naive mouse B cells: establishment of IgM secreting hybridomas specific for souble protein or hapten from B cells cultured on CD40 ligand transfected mouse fibroblasts. 867 20

Adenovirus vectors have several features that make them attractive for potential use in gene therapy, including a broad tissue tropism and an ability to infect quiescent or postmitotic cells. In light of this, we examined whether recombinant adenovirus vectors could transfer genes into neoplastic cells of patients with chronic lymphocytic leukemia (CLL), a leukemia of "resting" B cells. Using high-titer recombinant adenovirus vectors, we found we could transfer genes encoding beta-galactosidase or murine CD80 (B7-1) into the CLL B cells of all patients tested (n = 10). The efficiency of gene transduction into CLL B cells was approximately 100 to 1,000-fold lower than into HeLa cells at any given multiplicity of infection (MOI). At a MOI of 500, 10% to 70% of the CLL B cells from different patients were made to express the transgene, as assessed by multiparameter flow cytometric analysis. Sustained levels of expression with little loss in the percentage of infected cells were maintained for up to 9 days, at which point the analysis was stopped. We found that CLL B cells have markedly lower expression levels of integrins that facilitate internalization of adenovirus particles into target cells, perhaps accounting, in part, for the reduced efficiency of adenovirus-mediated gene transfer compared with that in HeLa cells. Although HeLa cells express high levels of alpha(v)beta5, and detectable amounts of alpha(v)beta3, we find CLL cells from all patients tested express only low amounts of alpha(v)beta3, and no detectable alpha(v)beta5. Activation of CLL cells via CD40 cross-linking enhances expression of alpha(v)beta3, and induces expression of alpha(v)beta5. This phenotypic change is associated with a fivefold increase in the efficiency of adenovirus-mediated gene transfer into such activated CLL B cells. This study demonstrates that adenovirus vectors can transduce genes into CLL B cells and that the efficiency of gene transduction is enhanced by activation via CD40 cross-linking. This is the first demonstration that high proportions of CLL B cells can be made to express a selected transgene, suggesting that such gene transfer methods may become useful for the study of the pathogenesis and/or treatment of this disease.
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PMID:Adenovirus vector infection of chronic lymphocytic leukemia B cells. 897 61

Polyreactive antibodies are naturally occurring antibodies, primarily of the IgM isotype, that are capable of reacting with a wide variety of different self and non-self antigens. Previously, we reported that a B cell capable of making polyreactive antibody has Ig receptors on its surface that can bind different antigens. The present investigation was initiated to characterize these polyreactive antigen-binding B cells further. A panel of fluorescein isothiocyanate-labeled antigens (insulin, IgG Fc fragment or beta-galactosidase) served as probes to select polyreactive antigen-binding B cells by cell sorting. Our experiment revealed that these polyreactive antigen-binding B cells were mainly of the IgD isotype. They expressed high levels of CD40 and major histocompatibility complex class II molecules, but little or no B7-1, B7-2, or Fas. In contrast to the binding of antigens to monoreactive receptors (usually high affinity), the binding of antigens to polyreactive receptors (usually moderate or low affinity) did not up-regulate the expression of B7-1 or B7-2. Antigens that bound to polyreactive receptors, however, were internalized and degraded, although not as efficiently as antigens that bound to monoreactive receptors. Despite the ability of these B7- cells to process antigens, they were not able to activate T cells in a mixed leukocyte reaction. It is concluded that polyreactive antigen-binding B cells have properties that are consistent with the ability to induce immunological tolerance.
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PMID:Polyreactive antigen-binding B cells in the peripheral circulation are IgD+ and B7-. 897 86

In this study we have analyzed the feasibility of gene transfer in human dendritic cells (DCs). DCs were generated from T and B cell-depleted peripheral blood mononuclear cells cultured for 7 days in the presence of granulocyte/macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4). The cells showed morphologic and immunophenotypical features typical of DCs, including expression of major histocompatibility complex (MHC) class I and II molecules, CD1a, CD80, CD86, CD13, CD33, CD40, and CD54. The cells showed high stimulatory activity in both allogeneic and autologous mixed lymphocyte reaction (MLR). The bacterial reporter gene lacZ coding for beta-galactosidase (beta-gal) was introduced in DCs by three sequential cycles of infection using a MFG retroviral vector system. After 7 days of culture 35-67% of the cells showed high expression of beta-gal activity, proving successful gene transfer. Stable integration of the lacZ gene was demonstrated by genomic DNA-polymerase chain reaction (PCR) up to 20 days after gene transfer. The percentage of transduction was similar when DCs were further purified by immunomagnetic separation according to CD1a-expression. We conclude that human DCs can be efficiently gene modified, further broadening the spectrum of possible DC-based clinical applications.
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PMID:Successful retroviral mediated transduction of a reporter gene in human dendritic cells: feasibility of therapy with gene-modified antigen presenting cells. 898 5

We evaluated the efficiency of adenovirus-mediated gene transfer into normal and malignant human hematopoietic cells. An E-1 and E-3 deleted, replication-defective recombinant Ad.RSV beta gal vector was used and the transduction efficiency was studied at a multiplicity of infection of 13 p.f.u. per cell. Approximately 40-50% of normal monocytes were transduced, whereas purified normal resting T cells and B cells were resistant to infection. We showed that 50-80% of primary chronic myeloid leukemia cells (CML, n = 12) were efficiently transduced in contrast to CML, successful transduction of resting primary chronic B lymphocytic leukemia cells required appropriate preactivation of targeted cells. A novel protocol for the efficient transduction of adenovirus into B-CLL cells was presented. We showed that anti-CD40 mAb or CD40 ligand acts in synergy with rhIL-4 to enable the transduction of approximately 50-75% of B-CLL cells (B-CLL, n = 6). Expression of beta-galactosidase in transduced CML cells and B-CLL cells was detected for at least 15 days after transduction. The present studies underline the utility of adenovirus vectors for the construction of cytokine gene-modified tumor vaccines for the treatment of hematopoietic malignancies such as CML and B-CLL.
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PMID:Efficient adenovirus-mediated gene transduction of normal and leukemic hematopoietic cells. 941 16

Interaction of CD40 with its ligand (CD154) can induce CD40-bearing APCs to express immune stimulatory accessory molecules that facilitate immune recognition. We evaluated whether a plasmid vector encoding CD154 (pCD40L) could influence the immune response to a transgene protein encoded by coinjected plasmid DNA. We found that coinjection of pCD40L in BALB/c mice enhanced the Ab response to beta-galactosidase induced by i.m. or intradermal injection of placZ, a plasmid DNA vector encoding beta-galactosidase. Furthermore, i.m. or intradermal coinjection of pCD40L with placZ enhanced the generation of CTL specific for P815 cells transfected with placZ. This study indicates that pCD40L can serve as a genetic adjuvant capable of augmenting humoral and cellular immune responses to Ags encoded by plasmid DNA expression vectors.
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PMID:Immunostimulatory effects of a plasmid expressing CD40 ligand (CD154) on gene immunization. 955 Mar 72

CD40/CD40 ligand interactions have a central role in the induction of both humoral and cellular immunity. In this study, we examined whether a plasmid expressing CD40 ligand/trimer (CD40LT) could enhance immune responses in vivo. BALB/c mice were injected with plasmid expressing beta-galactosidase DNA with or without CD40LT DNA or IL-12 DNA, and immune responses were assessed. Mice vaccinated with beta-gal DNA plus CD40LT DNA or IL-12 DNA had a striking increase in Ag-specific production of IFN-gamma, cytolytic T cell activity, and IgG2a Ab. The mechanism by which CD40LT DNA enhanced these responses was further assessed by treating vaccinated mice with anti-IL-12 mAb or CTLA-4 Ig (CTLA4Ig). Production of IFN-gamma and CTL activity was abrogated by these treatments, suggesting that CD40LT DNA was mediating its effects on IFN-gamma and CTL activity through induction of IL-12 and enhancement of B7 expression, respectively. Physiologic relevance for the ability of CD40LT DNA to enhance immune responses by the aforementioned pathways was shown in two in vivo models. First, with regard to CTL activity, mice vaccinated with CD40LT DNA did not develop metastatic tumor following challenge with lethal dose of tumor. Moreover, in a mouse model requiring IL-12-dependent production of IFN-gamma, mice vaccinated with soluble Leishmania Ag and CD40LT DNA were able to control infection with Leishmania major. These data suggest that CD40LT DNA could be a useful vaccine adjuvant for diseases requiring cellular and/or humoral immunity.
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PMID:CD40 ligand/trimer DNA enhances both humoral and cellular immune responses and induces protective immunity to infectious and tumor challenge. 979 83

CD40 is thought to play a central role in T cell-dependent humoral responses through two distinct mechanisms. CD4+ T helper cells are activated via CD40-dependent Ag presentation in which CD80/CD86 provides costimulation through CD28. In addition, engagement of CD40 on B cells provides a direct pathway for activation of humoral responses. We used a model of adenovirus-mediated gene transfer of beta-galactosidase (lacZ) into murine lung to evaluate the specific CD40-dependent pathways required for humoral immunity at mucosal surfaces of the lung. Animals deficient in CD40L failed to develop T and B cell responses to vector. Activation of Th2 cells, which normally requires CD40-dependent stimulation of APCs, was selectively reconstituted in CD40 ligand-deficient mice by systemic administration of an Ab that is agonistic to CD28. Surprisingly, this resulted in the development of a functional humoral response to vector as evidenced by formation of germinal centers and production of antiadenovirus IgG1 and IgA that neutralized and prevented effective readministration of vector. The CD28-dependent B cell response required CD4+ T cells and was mediated via IL-4. These studies indicate that CD40 signals to the B cells are not necessary for CD4+ Th2 cell-dependent humoral responses to be generated.
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PMID:Th2-dependent B cell responses in the absence of CD40-CD40 ligand interactions. 1060 18

The therapeutic use of dendritic cells (DC) in antigen-specific anti-tumor vaccines, requires sufficient numbers of functional DC, the preparation of which should comply with the code of Good Manufacturing Practice. In addition, the expression of tumor specific antigen should be possible in these DC. As a preclinical step, the method reported here was developed in healthy volunteers. Monocytes (Mo) were isolated by leukapheresis from 12 donors, purified by elutriation and then cultured for 6 days in sealed bags in AIM-V serum free medium with granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-13 (IL-13). Between 6x10(8) and 1x10(9) immature DC (iDC) could be differentiated from one leukapheresis. Cells displayed a characteristic iDC phenotype (CD1a(+), CD14(-), CD80(+), CD86(+), HLA DR(+), CD83(-)), and had potent allogeneic and antigen dependent autologous T cell-stimulatory capacity. Moreover, iDC could be further differentiated into mature DC by CD40 ligation as assessed by CD83 expression and the upregulation of HLA-DR and costimulatory molecules. After infection with a recombinant adenovirus encoding for beta-galactosidase (betaGal), 50% to 80% of iDC expressed betaGal without toxicity. Adenovirus infection increased the expression of both costimulatory molecules and CD83, and also increased allogeneic stimulatory capacity. Thus, the method developed here allows us to use large numbers of functional iDC as will be required for therapeutic uses in man. These DC can express a transgenic protein.
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PMID:Adenoviral transduction of human 'clinical grade' immature dendritic cells enhances costimulatory molecule expression and T-cell stimulatory capacity. 1091 50

Neoplastic plasma cells from patients with myeloma fail to stimulate an effective anti-myeloma immune response, which may be in part due to their deficient expression of immune accessory molecules. Attempting to alter this, we infected myeloma cell lines and patient-derived primary myeloma cells with an adenovirus encoding CD154 (Ad-CD154). Myeloma cells were made to express the CD154 transgene at multiplicity of infection (MOI) between 10 and 1000. Furthermore, infection of CD40(positive) myeloma cells with Ad-CD154, but not an adenovirus encoding an irrelevant transgene, beta-galactosidase (Ad-LacZ), induced enhanced expression of immune accessory molecules, such as CD54, HLA-DR and CD70. In addition, Ad-CD154-infected myeloma cells could activate bystander CD40(positive) antigen-presenting cells to express immune accessory molecules. Consequently, Ad-CD154 infected myeloma cells stimulated proliferation in allogeneic mixed lymphocyte reactions (MLR). Finally, co-infection of CD40(negative) myeloma cells with Ad-CD154 and an adenovirus encoding CD40 (Ad-CD40) induced expression of immune accessory molecules and enhanced the MLR stimulatory capacity of transduced myeloma cells. Collectively, these results indicate that infection of myeloma cells with Ad-CD154 or Ad-CD154/Ad-CD40 can induce changes in myeloma cells that enhance their ability to induce cellular immune activation. As such, this approach may have potential application for immune therapy of patients with this disease.
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PMID:Adenovirus transduction to effect CD40 signalling improves the immune stimulatory activity of myeloma cells. 1213 39

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