UMLS:C0026764 - FACTA Search

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Query: UMLS:C0026764 (multiple myeloma)
36,148 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although IL-6 has been identified as a major growth factor in multiple myeloma (MM), it is believed that maintenance of tumor growth in vivo depends on one or more additional stroma-derived factors. We describe a new human myeloma cell line (MM5.1) that can be maintained in the presence of bone marrow-derived stromal cell layers, and not only when cultured with exogeneous IL-6. This cell line expresses the same immunoglobulin kappa light chain RNA sequence as the patient's original tumor cells, has a plasma cell morphology and expresses plasma cell antigens (cytoplasmic kappa light chain, CD38, BB4). Without the presence of stromal factors, MM5.1 cells become apoptotic. A low proliferative effect was observed in the presence of oncostatin M (OSM) but other cytokines (IL-10, IL-11, stem cell factor (SCF) and leukemia inhibitory factor (LIF)) had no effect at all. We observed that MM5.1 cells also grow when physically separated from stromal cell layers by a 0.45 microm microporous membrane or when cultured in conditioned medium from stromal marrow cells. Unexpectedly, the growth in stromal supernatants was markedly inhibited by an anti-IL-6 antiserum and an anti-IL-6 receptor transducer chain (gp130) mAb in a dose-dependent manner. This implies that MM5.1 cells are IL-6 responsive only when exposed to one or more additional soluble factor(s) derived from bone marrow stroma. Coculturing MM5.1 cells with IL-6 and cytokines that were described to increase the IL-6 responsiveness of myeloma cells (G-CSF, GM-CSF and IL-3) had no effect on the growth or survival. A strong proliferative effect was observed when MM5.1 cells were cultured with IL-6 and soluble IL-6 receptor (sgp80). However no sgp80 could be detected in stromal supernatants using a sensitive immunoassay. This indicates that sustained proliferation of the MM5.1 cell line depends on a combination of IL6 and at least one, thus far unidentified, stroma-derived factor. After more than 1 year in continuous culture, we could obtain a variant of the line (MM5.2) that shows an improved growth rate and grows stroma independently. Molecular analysis revealed clonal identity with the early passage form and Epstein-Barr virus antigen expression was negative. The two variants of this cell line offer a useful model to identify molecular mechanisms involved in clonal evolution towards stroma-independent growth of myeloma cells.
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PMID:Establishment and characterization of a human stroma-dependent myeloma cell line (MM5.1) and its stroma-independent variant (MM5.2). 900 94

Mobilized CD34+ blood cells were immunomagnetically enriched from leukapheresis products in five multiple myeloma (MM) patients. Thawed samples of selected CD34+ cells were cultured for up to 21 d in a liquid and stroma-free culture system with different combinations of recombinant cytokines. The most successful cell expansion was obtained when a combination of rh-IL-1beta, rh-IL-3, rh-IL-6, rh-SCF, rh-G-CSF and rh-GM-CSF was used. After 14 d this mixture gave a 120-187-fold overall increase of total nuclear cells and a 4-8-fold overall increase of early CFU-GM numbers. In four patients a very sensitive patient-specific PCR analysis showed the presence of monoclonal cells in the initial leukapheresis products. After immunomagnetic separation a tumour cell depletion of 2-4 logs was observed, although all samples still contained malignant cells. Cell suspensions that were cultured with the most potent cytokine combination showed tumour contamination in two-thirds of evaluable cases at the moment of maximal CFU-GM output. Serial cDNA dilution experiments indicated that the positive PCR results at day 14 reflected the persistence of pre-culture tumour cells rather than in vitro expansion of tumour cells in two cases. This study demonstrates that ex vivo expansion of myeloid precursor cells from mobilized CD34+ cells in MM patients does not always result in an effective purging of residual tumour cells. On the other hand, our culture conditions do not seem to favour in vitro expansion of malignant cells, despite the use of a cytokine cocktail that includes potential myeloma growth factors.
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PMID:Persistence of residual tumour cells after cytokine-mediated ex vivo expansion of mobilized CD34+ blood cells in multiple myeloma. 902 33

The feasibility of ex vivo expansion of hematopoietic progenitors selected from leukapheresis products of patients treated for multiple myeloma (MM) was studied and compared with progenitor expansions from patients with nodular non-Hodgkin's lymphoma (NHL) or healthy donors. After positive selection, CD34+ cells from leukapheresis products of 4 MM and 5 NHL patients and CD34+ cells from bone marrow (BM) of 3 healthy donors were grown in IMDM plus 12.5% horse serum, 12.5% fetal calf serum, IL-1alpha, IL-3, IL-6, SCF, GM-CSF, G-CSF (10 ng/ml each), and EP (4 UI/ml). Outputs of CD34+ cell cultures from MM and NHL patients were similar. Day 14 mean increases in CD34+, CFU-GM, and total cell numbers were, respectively, 5.3-fold, 19.8-fold, and 1173-fold for MM patients and 4.3-fold, 15.6-fold, and 1659-fold for NHL patients, with at least 40% of day 14 cells being of granulocytic lineage. Patient CD34+ cell culture output was found to be related to the CFU-GM/CD34+ cell ratio of selected CD34+ cells, not to underlying pathology. When the initial CFU-GM/CD34+ cell ratio was above 0.025, MM and NHL CD34+ cell culture outputs were always above 1000-fold. Moreover, in all but one CD34+ cell culture, the use of fibronectin (FN)-coated dishes improved CFU-GM and total cell expansion. In patient CD34+ cultures carried out in FN-coated dishes, mean day 14 CFU-GM and total cell outputs were increased, respectively, 2.1-fold and 1.9-fold. We conclude that if the CFU-GM/CD34+ cell ratio is sufficient (>0.025), ex vivo expansion of hematopoietic progenitors from CD34+ cells selected from leukapheresis products is possible for both MM and NHL patients and that using FN-coated flasks is a simple and reliable way to improve both CFU-GM and total cell output.
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PMID:Ex vivo expansion of hematopoietic progenitors from CD34+ cells selected from leukapheresis products of lymphoma and myeloma patients: feasibility and enhancement by fibronectin. 911 56

Prolonged thrombocytopenia resulting from inadequate megakaryocyte (MK) progenitor cell reconstitution is a serious complication of hematopoietic cell-supported high-dose chemotherapy (HDC). In this situation, the infusion of MK progenitors that are expanded ex vivo could be clinically beneficial. In this study we investigated the ability of various growth factor combinations to generate MK progenitors. CD34+ cells derived from bone marrow (BM) and granulocyte colony-stimulating factor (G-CSF)-mobilized peripheral blood (PB) from 17 patients with breast cancer, lymphoma, or myeloma were cultured unpertubed for 10 days in a serum-free liquid culture system that contained recombinant growth factors. Five different growth factors combinations were evaluated: Stem cell factor (SCF), interleukin (IL)-3, IL-6 + G-CSF (combination 1); SCF, megakaryocyte growth and development factor (MGDF) + G-CSF (combination 2); SCF + MGDF (combination 3); MGDF alone (combination 4); and SCF, IL-3, IL-6, G-CSF + MGDF (combination 5). PB CD34+ cells yielded significantly higher numbers of CD41+ MK progenitors than BM CD34+ cells with any of the growth factor regimens assayed. PB CD34+ cells (2x10[5]) at day 0 generated 1.2 to 1.3x10(6) CD41+ cells by day 10 when cultured in the presence of growth factor combinations 1, 2, or 3. In contrast, 2x10(5) BM CD34+ cells produced 5x10(5) CD41+ cells after 9 days in the presence of combination 1, whereas lower numbers of CD41+ cells were generated in cultures with combinations 2 and 3 (2.3x10[5] and 4.2x10[4], respectively). The addition of MGDF to cultures that were grown with combination 1 for 5 days increased the number of CD41+ cells (1.7-fold increase in PB-derived cultures, 1.6-fold increase in BM-derived cultures). Treatment with MGDF alone resulted in higher frequencies of MK progenitors than those obtained in cultures with combined growth factors (79% in PB-derived cultures, 25% in BM-derived cultures), but because total cell growth was attenuated, absolute numbers of MK progenitors were lower (7x10(5) in PB-derived cultures, 7x10(4) in BM). Morphological analysis of immunocytochemically identified megakaryocytic cells revealed mononuclear cells as the predominant cell type in all of the cultures. During the 10-day culture period, PB-derived MK progenitors did not show notable maturation, even under the influence of MGDF, whereas in BM-derived cultures MGDF induced a significant shift to binuclear cells and stage I MK after day 5. Phenotypic analysis of cell surface markers showed that the majority of cultured megakaryocytic cells coexpressed CD34 and platelet glycoproteins (GPs), also indicating an immature stage of development. The ex vivo proliferative activity of CD34+ cells and their potential to develop into the megakaryocytic lineage demonstrated considerably high interpatient variations. There was no correlation between platelet recovery following HDC with hematopoietic cell support and the magnitude of GP+ cell expansion ex vivo, suggesting the feasibilty of MK expansion ex vivo in patients with prolonged thrombocytopenia posttransplantation. In summary, these data indicate that GCSF-mobilized CD34+ PBPCs are more effectively expanded ex vivo into the megakaryocytic lineage than are CD34+ BMPCs. CD34+/GP+ MK progenitors may be an appropiate cell population for transplantion as prophylaxis or treatment of prolonged thrombocytopenia. The efficacy of this procedure will be tested prospectively in a clinical trial.
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PMID:Ex vivo expansion of megakaryocyte progenitors: effect of various growth factor combinations on CD34+ progenitor cells from bone marrow and G-CSF-mobilized peripheral blood. 932 49

IFN-gamma is a cytokine which functions in a wide range of biological activities by inducing a number of early and delayed genes. In murine IL-3-dependent cell lines BAF-B03 and 32D, IFN-gamma upregulated bag-1 and bcl-xL gene expression. These cells revealed prolonged cell survival against IL-3-deprivation by IFN-gamma stimulation. In contrast, human myeloma cell line RPMI8226, despite expression of IFN-gamma receptor, showed neither induction of their expressions nor prolonged cell survival against serum starvation-induced apoptosis by IFN-gamma stimulation. Gene-transfer-mediated overexpression of BAG-1 protein in BAF-B03 cells led to prolonged cell survival against IL-3-deprived apoptosis compared with control BAF-B03 transfectants, indicating that levels of BAG-1 expression are crucial for cell survival in BAF-B03 cells. Taken together, these studies suggest that induction of anti-apoptotic gene expression is a crucial factor for the anti-apoptotic function of IFN-gamma in IL-3-dependent immature hematopoietic cells.
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PMID:IFN-gamma upregulates anti-apoptotic gene expression and inhibits apoptosis in IL-3-dependent hematopoietic cells. 934 41

Defects in immune response are often reported in patients with multiple myeloma (MM). Because dendritic cells (DCs) are key effectors in promoting cellular immunity and are potential vectors for immunotherapy, we have evaluated the ability of MM patients' apheresis cells to generate DCs in short-term cultures. We report here the obtaining of a virtually pure population of DCs (89.7% +/- 6%, n = 18) after culturing adherent apheresis cells for 7 days with granulocyte-macrophage colony-stimulating factor (GM-CSF ) and interleukin-4 (IL-4). These cells exhibited all the phenotypic characteristics (CD1a+, HLA-DR+, CD80+, CD40+, CD14-) and the MLR stimulating capacity of mature DCs. The number of DCs reached 12. 1% of the initial apheresis cell number put into culture. As DC precursors involved in this model were CD34(-) cells, the unabsorbed cells resulting from clinical-grade CD34 purification were a reliable source of DCs, even after freezing. The proliferation of DC precursors could be increased 10-fold by adding IL-3 and tumor necrosis factor-alpha together with GM-CSF and IL-4. Thus, CD34- apheresis cells from patients with MM offer an interesting source for generating pure, functional, and potentially proliferating DCs.
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PMID:Generation of virtually pure and potentially proliferating dendritic cells from non-CD34 apheresis cells from patients with multiple myeloma. 934 32

We describe a patient with multiple myeloma (MM), whose bone marrow (BM) cells were capable of spontaneous paraprotein isotype secretion, which could be strongly stimulated by hematopoietic growth factors (GFs), such as interleukin-6 (IL-6), granulocyte-macrophage colony-stimulating factor (GM-CSF), G-CSF and IL-3. Ig production by BM cells from another five MM patients and four control patients with non-malignant hematological diseases could not be stimulated by these GFs. The results indicate that GFs, at least in some instances, can activate tumoral plasma cells in patients with MM. This possibility should be taken into account when the utility and effectiveness of GFs in the treatment of MM is evaluated.
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PMID:Hematopoietic growth factors stimulate paraprotein isotype production by bone marrow mononuclear cells in an aggressive case of multiple myeloma. 936 91

Extensive pretreatment has been identified as a significant risk factor for failure of sufficient PBSC mobilization. From published data and our own experience we defined pretreatment variables which render patients at risk for not collecting at least 2.5 x 10(6) CD34-positive cells per kg bodyweight (BW). These variables were previous unsuccessful PBSC mobilization trial, previous large field radiotherapy, four or more cycles of myelosuppressive chemotherapy regimens, and combinations of extended field radiotherapy plus chemotherapy. Based on these inclusion criteria we treated 19 patients with disease-specific conventional-dose chemotherapy followed by sequential subcutaneous administration of IL-3 (5 microg/kg BW) for 5 consecutive days and G-CSF (10 microg/kg) until PBSC collection or neutrophil recovery. Patients were 10 males and nine females with a median age of 43 years. Diagnoses were non-Hodgkin's lymphoma n = 5, Hodgkin's disease n = 2, multiple myeloma n = 2, CML n = 4, AML n = 4 and testicular cancer n = 2. Twelve patients had prior unsuccessful trial of PBSC mobilization with chemotherapy followed by G-CSF. Except for mobilization chemotherapy-related neutropenic fever, no major toxicities (WHO grade > or = 2) were observed. Growth factors were well tolerated. Collection of at least 2.5 x 10(6) CD34-positive cells per kg BW was possible in 11 out of 19 patients (58%). In five out of 12 patients with a previous unsuccessful trial of PBSC mobilization, the study regimen mobilized sufficient CD34-positive cells. Nine patients went on to high-dose chemotherapy followed by autologous PBSC transplantation. Prompt hematologic recovery was seen in all of them. In conclusion, the sequential administration of IL-3 followed by G-CSF after conventional-dose chemotherapy allows successful PBSC collection in the majority of extensively pretreated patients.
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PMID:Peripheral blood stem cell (PBSC) mobilization with chemotherapy followed by sequential IL-3 and G-CSF administration in extensively pretreated patients. 946 74

Study of the network of cytokines has helped identify cell growth factors in multiple myeloma. Plasma cells themselves may produce autocrine interleukin 6 (IL-6) while IL-6 production by bone marrow stromal cells may operate a paracrine mechanism. Involvement of IL-6 in multiple myeloma is indicated by its ability to induce the differentiation of myeloma plasmablasts into mature malignant plasma cells. Differential diagnosis between multiple myeloma and monoclonal gammopathies of undetermined significance (MGUS) is generally based on clinical and laboratory parameters. Nevertheless, evaluation of the serum level of IL-6, C reactive protein, soluble IL-6 receptor, soluble IL-2 receptor together with the activity exerted by IL-3 and IL-4 on some cellular subsets constitutes an additional element in the differential diagnosis of border-line cases. Serum levels of IL-6, soluble IL-6 receptor (sIL-6R), soluble interleukin-2 receptor (sIL-2R) and the expression of membrane-bound IL-2 receptors, both on bone marrow plasma cells and on peripheral blood mononuclear cells are correlated with disease activity and disease stage. In addition, IL-6 and sIL-6R serum levels correlate with the duration of survival, as high values at the time of diagnosis correlate with short duration of survival.
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PMID:Interleukin-6 and the network of several cytokines in multiple myeloma: an overview of clinical and experimental data. 1174 46

A number of haematological and non-haematological malignancies can be successfully treated using high-dose chemotherapy +/- irradiation followed by haematopoietic progenitor cell transplantation. Post transplant, thrombocytopenia and neutropenia always occur and patients require platelet transfusions. It may be possible to reduce the period of thrombocytopenia by re-infusion of ex vivo expanded megakaryocyte progenitors (MP), derived from the progenitor cell graft. We have investigated the expansion of MP from CD34+ enriched cells from normal bone marrow (NBM) and peripheral blood (PB) and remission BM or PB samples from patients with haematological malignancies. CD34+ cells were cultured in serum-free medium supplemented with thrombopoietin (TPO), interleukin 1 (IL-1), IL-6 and stem cell factor (SCF) for 7 d, then cell proliferation was assessed by flow cytometry using lineage-specific markers. It was possible to significantly expand the number of MP cells from all sources. There were no major differences in yields of MP from normal BM or PB, or BM from multiple myeloma and non-Hodgkin's lymphoma patients. However, expansion of MP in acute myeloid leukaemia samples was lower than all other samples and the number of megakaryocyte colony-forming units was reduced. Several cytokine combinations were evaluated to optimize MP expansion from NBM. Equivalent yields of MP were obtained using TPO and one of IL-1, IL-3, granulocyte-macrophage colony-stimulating factor or SCF, suggesting that large cytokine combinations are not necessary for this procedure. It should be possible to scale up the culture conditions described to produce effective MP doses for clinical transplantation.
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PMID:Ex vivo expansion of megakaryocyte progenitor cells from normal bone marrow and peripheral blood and from patients with haematological malignancies. 1188 1

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