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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mantle cell lymphoma (MCL) is a tumor of intermediate-size, IgM+, IgD+ B cells derived from the mantle zone of the germinal center. Little is known about its specific immunologic features or responsiveness to T cell-derived signals. In this work, we evaluated the proliferation and cell cycle properties of freshly isolated MCL cells after CD40 ligation, in the absence and presence of interleukin 4 (IL-4). In each MCL case examined, there was a marked growth-enhancing effect of these two stimuli characterized by improved viability, augmented expression of Ki-67, and induction of the proliferating cell nuclear antigen (PCNA). Cyclin D1 was expressed throughout the cell cycle in MCL cells induced to enter S phase. From these investigations, we conclude that the biology of MCL B lymphocytes is affected by
CD154
(CD40 ligand) and IL-4, two signals usually provided by CD4+ T cells. The capacity to manipulate the activation and cell cycle state of MCL cells by these specific immunological stimuli may be exploited to confer susceptibility to chemotherapy agents and develop novel therapies in this disease.
Leukemia
2000 Feb
PMID:Proliferative response of mantle cell lymphoma cells stimulated by CD40 ligation and IL-4. 1067 47
In a murine tumor model, complete tumor remission is achievable at even advanced metastasized stages by transfer of immune T cells from donor B10.D2 (H-2d, Mls(b)) into tumor-bearing DBA/2 (H-2d, Mls(a)) mice. We showed previously that this graft-versus-
leukemia
(GvL) effect is dependent on synergistic interactions of transferred CD4+ and CD8+ T cells with host sialoadhesin (SER)-positive macrophages. We now show that the CD40-
CD40L
(
CD154
) interaction is involved in the induction of inducible nitric oxide synthase (iNOS) expression during adoptive immunotherapy (ADI). We demonstrate that during ADI, the level of CD40 expression in the liver becomes significantly augmented in comparison to livers of tumor-bearing, untreated animals. CD40 expression is found mostly on SER+ macrophages and to a lesser extent on dendritic cells (DCs). In GvL animals, more SER+ macrophages express iNOS than untreated animals. iNOS expressing cells are found in close proximity to apoptotic cells, at early time points of the therapy in areas of metastasis, and at late stages around portal veins, where CD4+ and CD8+ T lymphocytes form clusters with SER+ macrophages. Blocking of
CD40L
in vivo at days 5 and 20, when all iNOS+ cells express CD40, leads to significantly reduced CD40 and iNOS expression as well as to a marked inhibition of the therapeutic effect. These data provide functional and in situ evidence that the increased CD40 and iNOS expression observed during ADI contribute to the eradication of liver metastases and to the clearance of donor lymphocytes from the liver.
...
PMID:Functional and in situ evidence for nitric oxide production driven by CD40-CD40L interactions in graft-versus-leukemia reactivity. 1081 24
Gene transfer of various cytokines and co-stimulatory molecules has been reported to induce a potent antileukemic immunity in murine models, however, the relative efficiency and possible synergistic effects between candidate genes have not been extensively investigated. We analyzed in a murine model of BCR/ABL acute leukemia whether gene transfer of
CD154
, CD80 or GM-CSF as a single agent or combination of
CD154
+ GM-CSF, CD80 +
CD154
and GM-CSF + CD80 in leukemic cells could enhance survival. We observed that
CD154
gene transfer induced a marked inhibition of leukemogenicity, and also that
CD154
and combination of GM-CSF and CD80 gene transfer protected mice against subsequent challenge with leukemic cells and had a therapeutic effect for a pre-established
leukemia
disease. We also found minimal residual leukemic disease by RT-PCR for 6 to 12 months in 0 to 25% of animals injected with transduced leukemic cells and surviving the challenge without evidence of disease, except in the control empty plasmid group where very few mice survived the challenge but all of those were positive by RT-PCR. These findings suggest that leukemic cell vaccination by gene transfer can induce a tumor dormancy phenomenon compatible with long-term survival.
...
PMID:Gene transfer of GM-CSF, CD80 and CD154 cDNA enhances survival in a murine model of acute leukemia with persistence of a minimal residual disease. 1091 2
Mantle cell lymphoma (MCL) is a B cell non-Hodgkin's lymphoma, characterized by a poor response to therapy and short survival. To assess the proliferative capacity, we cultured MCL cells, using irradiated 3T6 mouse fibroblasts transfected with human
CD40L
('CD40 system') in the presence of different cytokines. Proliferation was measured by 3H-thymidine incorporation and by CFSE fluorescence. Thirteen out of 16 MCL cases proliferated well in the CD40 system. In 10 cases a strong response upon further addition of IL-10 was seen, whereas IL-4 had an additional effect in only four cases. CFSE staining of cells before and after culture showed an increased number of cell divisions in the IL-10/
CD40L
stimulated cells. The MCL cells remained CD5+CD19+. Neither plasma cell differentiation nor isotype switching was seen. The light chain expression was strictly monoclonal. IL-1beta, IL-2, IL-6, G-CSF and GM-CSF did not stimulate MCL proliferation. IL-10 receptor expression correlated with the response to IL-10 in the culture system and the effect of added IL-10 could be blocked by antibodies directed against IL-10 and the IL-10 receptor. Autocrine IL-10 production by the MCL cells was detected in eight of 10 cases tested. IL-10 receptor blocking decreased proliferation when no exogenous IL-10 was used in four of seven cases tested. EBV assessed by EBER in situ hybridization was not detected in six cases tested. In conclusion, MCL can successfully be cultured upon CD40 stimulation if 3T6 CD40L+ cells are used. In this context IL-10 is a costimulatory factor. IL-10 receptor expression seems to correlate with response to CD40 crosslinking and IL-10. Autocrine IL-10 production might play a role in the proliferation of this lymphoma. This culture system may be useful to test new treatment strategies for this, thus far, therapy-resistant lymphoma.
Leukemia
2000 Aug
PMID:Mantle cell lymphoma proliferates upon IL-10 in the CD40 system. 1094 46
Gene therapy offers many new and exciting treatment strategies for patients with hematologic malignancies. Through the transfer of genes into hematopoietic stem cells, one can reduce the sensitivity of myeloid cells to chemotherapy. Donor T cells can be modified to become sensitive to otherwise nontoxic prodrugs, allowing for their safer use as effectors in graft-versus-
leukemia
immune reactions following allogeneic transplantation. Neoplastic cells also may be modified to enhance their sensitivity to various drugs. Finally, neoplastic cells can be modified to enhance their immunogenicity using genes that encode immune stimulatory cytokines or cell surface proteins. Recent studies, for example, indicate that the stealth-like phenotype of
leukemia
cells can be reversed through transfer of genes such as the one encoding
CD154
, the ligand for CD40. A phase I clinical trial using autologous
CD154
-transduced
leukemia
cells as a cellular vaccine has provided encouraging results. Indeed, we may soon enter an era of effective gene therapy for hematologic malignancies.
...
PMID:Gene therapy of hematologic malignancies. 1104 18
Chronic lymphocytic leukemia (CLL) cells can be made to express recombinant CD40-ligand (
CD154
) by transduction with a replication-defective adenovirus vector (Ad-
CD154
). Ad-
CD154
-transduced and bystander
leukemia
cells become highly effective antigen-presenting cells that can induce CLL-specific autologous cytotoxic T lymphocytes in vitro. This study investigated the immunologic and clinical responses to infusion of autologous Ad-
CD154
-CLL cells in patients with CLL. After a one-time bolus infusion of autologous Ad-
CD154
-transduced
leukemia
cells, there was increased or de novo expression of immune accessory molecules on bystander, noninfected CLL cells in vivo. Treated patients also developed high plasma levels of interleukin-12 and interferon-gamma, the magnitudes of which corresponded to absolute blood CD4(+) T-cell counts before therapy. On average, patients experienced a greater than 240% increase in absolute blood T-cell counts within 1 to 4 weeks of treatment. Moreover, treatment increased the numbers of
leukemia
-specific T cells, demonstrated by autologous ELISPOT assay and mixed lymphocyte reactions. These biologic effects were associated with reductions in
leukemia
cell counts and lymph node size. Treatment did not induce autoimmune thrombocytopenia or hemolytic anemia and no dose-limiting toxicity was observed. This approach may provide a novel and effective form of gene therapy for patients with this disease.
...
PMID:CD40-ligand (CD154) gene therapy for chronic lymphocytic leukemia. 1179 65
The transfer of genes encoding co-stimulatory molecules and/or cytokines to
leukaemia
cells in order to create autologous tumour vaccines represents a potential immunotherapeutic strategy for treating acute myeloid leukaemia (AML). One of the essential requirements for this strategy if it is to be applicable in a clinical setting is a high efficiency of gene transfer to primary human AML blasts. Using green fluorescent protein (GFP) as a reporter gene, we have systematically evaluated a variety of physical, chemical and viral vector-based gene transfection systems in order to determine which gave the highest gene transfer efficiency to myeloid
leukaemia
cell lines and primary AML blasts. Transfection efficiency was low for all the physical and chemical transfection methods tested. Retroviral vector-based infection gave a high efficiency of gene transduction in two of the four
leukaemia
cell lines (KG1a and U937), but was low in primary AML blasts. An adenoviral vector gave a high transduction efficiency in all of the
leukaemia
cell lines with the exception of the HL60. In primary AML blasts, derived from 19 patients, gene transduction efficiency was variable, ranging from 1.1% to 67.1% (mean 12.1%). Following culture in cytokines GM-CSF/IL-4/
CD40L
, which induced differentiation of AML blasts to dendritic-like cells, transduction efficiency was increased between two- and eightfold in 6 out of the 15 cases that underwent differentiation.
...
PMID:Gene transfer to primary acute myeloid leukaemia blasts and myeloid leukaemia cell lines. 1114 Aug 81
Relapse of childhood acute lymphoblastic
leukaemia
(ALL) comprises a leading challenge of investigation. Characterization of leukaemic cells regarding their potency to express growth factors and surface molecules can provide insight into their aberrant biology. Thus, we analyzed bone marrow blasts from 10 children with relapsed B cell precursor ALL. The gene and protein expression of essential haematopoietic growth factors (IL-2, IL-4, IL-7, IL-10, IL-15, IFN-gamma, G-CSFR), their corresponding receptors as well as the expression pattern of adhesion molecules (ICAM-1, CD58) and costimulatory proteins (CD40,
CD40L
, B7.1, B7.2, CD28, MHC-I and II) was analyzed by RT-PCR and flow cytometry. Constitutive gene expression was found for IL-7, IL-10, IL-15 and IFN-gamma and their corresponding receptors. Flow-cytometric analysis showed that IL-10R, IL-7Ralpha, IL-4Ralpha and the gamma(c)chain are constitutively expressed, and that some cells bear the G-CSFR. IL-10 and IL-15 protein-producing leukaemic cells were easily detectable. The neoplastic cells mainly lack B7.1, and ICAM-1 is mostly decreased. Furthermore, high CD40, and, surprisingly,
CD40L
expression could be found. These studies show that ALL cells are likely to be sensitive to many growth factors and some factors are produced by the neoplastic cell itself. The secretion of IL-10 by leukaemic cells, and the absence or downregulation of conventional adhesion and costimulatory molecules might represent an effective mechanism of escape of immune surveillance in relapsed ALL.
...
PMID:Characterization of cytokine, growth factor receptor, costimulatory and adhesion molecule expression patterns of bone marrow blasts in relapsed childhood B cell precursor all. 1114 41
Bovine leukemia virus (BLV) is closely associated with the development of B-cell
leukemia
and lymphoma in cattle. BLV infection has also been studied extensively in an in vivo ovine model that provides a unique system for studying B-cell leukemogenesis. There is no evidence that BLV can directly infect ovine B cells in vitro, and there are no direct data regarding the oncogenic potential of the viral Tax transactivator in B cells. Therefore, we developed ovine B-cell culture systems to study the interaction between BLV and its natural target, the B cell. In this study, we used murine
CD154
(CD40 ligand) and gamma-chain-common cytokines to support the growth of B cells isolated from ovine lymphoid tissues. Integrated provirus, extrachromosomal forms, and viral transcripts were detected in BLV-exposed populations of immature, rapidly dividing surface immunoglobulin M-positive B cells from sheep ileal Peyer's patches and also in activated mature B cells isolated from blood. Conclusive evidence of direct B-cell infection by BLV was obtained through the use of cloned B cells derived from sheep jejunal Peyer's patches. Finally, inoculation of sheep with BLV-infected cultures proved that infectious virus was shed from in vitro-infected B cells. Collectively, these data confirm that a variety of ovine B-cell populations can support productive infection by BLV. The development of ovine B-cell cultures permissive for BLV infection provides a controlled system for investigating B-cell leukemogenic processes and the pathogenesis of BLV infection.
...
PMID:CD154 costimulated ovine primary B cells, a cell culture system that supports productive infection by bovine leukemia virus. 1115 82
Neoplastic B cells are stealthlike in their ability to evade immune detection, even by allogeneic T cells of normal healthy donors. This stealthlike phenotype can be reversed by activating neoplastic B cells through ligation of CD40, a cell surface molecule that can interact with a ligand expressed on activated T cells. The gene encoding this ligand,
CD154
, can be transferred into neoplastic B cells ex vivo through infection with a modified adenovirus vector called Ad-
CD154
. This results in a dramatic change in the phenotype and function of the neoplastic B cells. Infected malignant B cells can stimulate T cells reactive with potential tumor antigens and induce autologous cytotoxic T cells capable of destroying the neoplastic B cells in vitro. This formed the basis for an immune gene therapy protocol in which patients were infused with Ad-
CD154
-transduced leukemic B cells. Treatment was well tolerated, without apparent long-term toxicity, and without a maximum tolerated dose. Biologic and clinical responses were observed, including significant reductions in
leukemia
cell counts and lymph node sizes after a single one-time infusion. Furthermore, preliminary data suggest that this approach can enhance antibody-dependent cellular cytotoxicity and thereby augment the activity of antitumor monoclonal antibody therapy. Development of such strategies may allow for effective immunogenetic therapy for B-cell malignancies.
...
PMID:Immunogenetic therapy for B-cell malignancies. 1122 94
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