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)

Patients with multiple myeloma (MM) commonly become refractory to chemotherapy despite a favorable response to induction treatment. We examined the effectiveness of a previously characterized plasma cell-reactive monoclonal antibody, MM4, in eliminating MM clonogenic colony-forming cells (CCC) with a multidrug-resistant (MDR) phenotype. Experiments were performed using MM cell lines that exhibit 6 (RPMI 8226/DOX6)- and 40 (RPMI 8226/DOX40)-fold resistance to doxorubicin (DOX). Both lines were selected from the chemosensitive MM line RPMI 8226/S and were cross-resistant to mitoxantrone, acronycine, etoposide, and vincristine. Surface marker analysis conducted in this study showed that DOX6 and DOX40 overexpressed the MDR1 gene product p170. Both MDR lines remained reactive to the plasma cell-reactive monoclonal antibodies MM4 and PCA-1 and expressed the relevant cytoplasmic immunoglobulin light chain. Treatment with MM4 and rabbit complement (C') was equally cytotoxic to RPMI 8226/S [80 +/- 5.6% (SD)], DOX6 [74 +/- 8.5], and DOX40 cells [75 +/- 11.3%], based on short-term chromium release studies. Furthermore, MM4 + C' deleted up to 3 logs of CCC colonies from chemosensitive and MDR lines (RPMI 8226/S, 99.87 +/- 0.11%; DOX6, 99.91 +/- 0.08%; DOX40, 99.55 +/- 0.44%). By comparison, the P-glycoprotein-reactive monoclonal antibody MRK-16 and C' inhibited tumor colony formation of MDR cells (8226/DOX6, 95.71 +/- 2.51%; 8226/DOX40, 99.61 +/- 0.43%) but affected that of chemosensitive cells only slightly (8.9 +/- 17.8%). In an attempt to optimize the depletion of myeloma CCC, MM4 was used together with MRK-16. This approach resulted in uniform depletion of myeloma clonogenic colony-forming cells from the chemosensitive (98.32 +/- 1.53%, n = 4) and MDR lines (8226/DOX6, 98.83 +/- 0.08%, n = 4; 8226/DOX40 99.29 +/- 0.62, n = 7) but did not result in enhanced CCC depletion. When DOX40 cells were mixed with normal bone marrow (BM) in the ratio of 90:10 (BM:MM), either MM4 or MRK-16 and C' depleted MM colonies (98.8 +/- 0.71% and 98.10 +/- 1.0%, respectively) without affecting the majority of BM progenitor cells. These observations suggest that either MM4 or MRK-16 is useful for depleting MDR myeloma clonogenic colony-forming cells.
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PMID:Elimination of chemoresistant multiple myeloma clonogenic colony-forming cells by combined treatment with a plasma cell-reactive monoclonal antibody and a P-glycoprotein-reactive monoclonal antibody. 256 59

To assess the usefulness of 4-hydroperoxycyclophosphamide (4-HC) and Etoposide (VP-16) as a purging agent for myeloma cells in bone marrow ex-vivo, myeloma cell lines (SK-RCS-1, RPMI-8226), lymphoma cell line (SK-DHL-2) and normal bone marrow (BM) cells were treated at different concentrations of 4-HC, VP-16. In separate experiments, LAK cells or antibodies were also used to treat the above cell lines. Clonogenic tumor cells from all three cell lines could be reduced by more than 4 logs, when treated alone or as a mixture with irradiated normal bone marrow cells at a 4-HC concentration of 60 mumol/l. Under similar conditions, approximately 1% of normal BM myeloid progenitor granulocyte-macrophage colony forming cells (CFU-GM) survived. The results with LAK cells and antibodies were also encouraging. These observations support the use of various purging methods for myeloma cells for autologous bone marrow transplantation.
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PMID:Ex vivo treatment of myeloma cells by 4-HC, VP-16, LAK cells and antibodies. 262 87

Macrophage CSF (M-CSF) induces proliferation of monocyte/macrophage progenitor cells and can also activate some functions of mature cells. Three different human M-CSF cDNA (4.0, 3 to 3.5, and 1.5 kb) which are the result of alternative splicing of the single M-CSF gene have been cloned. Each of these cDNA encode a biologically active M-CSF. M-CSF transcripts are expressed in normal fibroblasts and other mesenchymal cells, and also in some hematopoietic cells such as monocytes. Normal human cells examined to date express only the 4.0-kb transcript. In contrast, a 3.5-kb M-CSF transcript was continuously expressed in two multiple myeloma cell lines (RPMI 8226 and U266/AF10) and in a bone marrow specimen of a patient with multiple myeloma. The myeloma cell lines secreted biologically active M-CSF. Resting and activated normal B lymphocytes and other B cell neoplasms examined did not express the 3.5-kb transcript, but could be induced to express the 4.0-kb transcript and to secrete M-CSF. Myeloma cells appear to be unique among hematopoietic cells in their expression of the 3.5-kb M-CSF transcript.
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PMID:Expression of a novel 3.5-kb macrophage colony-stimulating factor transcript in human myeloma cells. 268 19

K18 is an anticancer drug for oral administration comprising about five molecules of melphalan, an alkylating drug, covalently bonded to human immunoglobulin G. This study measured the in vitro antitumour activity of K18, melphalan and immunoglobulin G on human myeloma cells (RPMI-8226) and the in vivo antitumour effects of K18 and melphalan in BALB/c nude mice bearing human lung cancer cells (LC-10). The relative tumour-inhibitory effect, in vitro, was found to be: immunoglobulin G less than K18 less than melphalan. This activity of K18 was about half the theoretical value indicating that melphalan molecules are not released easily from the conjugate. K18 showed strong antitumour activity in vivo which continued after stopping administration. On the other hand, the effects of melphalan did not continue after administration was stopped. The distribution of [125I] K18 and [14C]melphalan was examined in BALB/c nude mice 14 days after implantation of LC-10 cells. Radioactivity levels in the major organs showed a transient rapid increase followed by a gradual decline. In tumours, [14C]melphalan levels increased transiently and then decreased, whereas [125I]K18 levels persisted following intravenous administration.
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PMID:Mechanism of action of the antitumour effect of K18. 272 13

Five human myeloma cell lines, KMM-1, KMS-5, KMS-11, KMS-12-PE, and KMS-12-BM, have been established at Kawasaki Medical School since 1980. As the KMS-12-PE and KMS-12-BM lines were obtained from the same patient, these five cell lines have been derived from four patients with multiple myeloma. The five myeloma cell lines are stably growing at present in RPMI 1640 medium supplemented with 10% fetal bovine serum. They can also grow in a defined culture medium without serum. That these cell lines were human myeloma cells was confirmed by the following findings. Ultrastructurally, all five cell lines showed features characteristic of plasma cells. KMM-1 and KMS-11 cells secreted lambda and kappa chains into the culture medium, respectively, but the other cell lines produced no immunoglobulins. KMM-1 expressed cytoplasmic lambda antigen, KMS-5 showed cytoplasmic delta, and KMS-11 expressed surface kappa, whereas KMS-12-PE and KMS-12-BM cells showed no surface or cytoplasmic immunoglobulins. Regarding reaction with a monoclonal plasma cell antibody (PCA-1), four of the five lines were positive, the exception being KMS-5. Another monoclonal antibody (CD38), which also recognizes plasma cells, responded to KMM-1, KMS-12-PE, and KSM-12-BM. KMS-5 cells expressed acute lymphoblastic leukemia antigens (CALLA). These data suggest that such lines as KMM-1, KMS-11, KMS-12-PE, and KMS-12-BM represent later stages of B-cell differentiation, and that KMS-5 represents a relatively early stage of B-cell differentiation. All the cell lines lacked Epstein-Barr virus nuclear antigen, showed abnormal karyotypes of human origin, and differed from each other in the isozyme patterns examined. Only KMS-5 was tumorigenic when transplanted subcutaneously into nude mice.
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PMID:Establishment of five human myeloma cell lines. 276 32

To explore the mechanisms involved in the pathogenesis of human multiple myeloma (MM), we investigated the potential role of interleukin-6 (IL-6), a B-cell differentiation factor in humans, and a growth factor for rat/mouse heterohybridomas and murine plasmacytomas. Using a heterohybridoma assay, we found that two well-documented human myeloma cell lines, RPMI 8226 and U266, did not secrete IL-6 and did not express RNA messengers for IL-6. Neutralizing antibodies to IL-6 did not inhibit their proliferation, and recombinant IL-6 did not stimulate it. Taken together, these data show that IL-6 is not the autocrine growth factor of these human myeloma cell lines. A high production of IL-6 was found in the bone marrows of patients with fulminating MM, compared with patients with inactive or slightly active MM, or to healthy donors. This IL-6 production was assigned to adherent cells of the bone-marrow environment but not to myeloma cells. A spontaneous proliferation of myeloma cells freshly isolated from patients was observed in short-term cultures. Recombinant IL-6 was able to amplify it two- to threefold. The spontaneous proliferation of the myeloma cells was inhibited by anti-IL-6 antibodies and reinduced by recombinant IL-6. After 2 to 3 weeks of culture, the myeloma-cell proliferation progressively declined and no IL-6-dependent myeloma cell lines could be obtained despite repeated additions of fresh IL-6 and costimulation with other cytokines such as tumor necrosis factor (TNF)beta, or IL-1 beta. These data demonstrated a paracrine but not autocrine regulation of the growth and differentiation of myeloma cells by IL-6.
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PMID:Paracrine rather than autocrine regulation of myeloma-cell growth and differentiation by interleukin-6. 278 61

Several recent studies have demonstrated the presence of specific receptors for the 1,25-dihydroxyvitamin D3 (calcitriol) in activated normal lymphocytes. By DNA cellulose chromatography, we show evidence of such specific receptors in the human myeloma cell line RPMI 8226. Nanomolar concentrations of 1,25-dihydroxyvitamin D3 reduce the proliferation of RPMI 8226 cells significantly and simultaneously induce the appearance of both new properties and phenotype expression, such as butyrate esterase, enhanced expression of CD20 (B1), CD15 (Leu-M1) antigens and lambda chains, and decreased expression of the PC1 antigen using microfluorometric analysis. But such an increased expression of membrane lambda chains was not associated with an enhanced secretion of lambda chains. Furthermore, the bone resorbing activity produced normally by RPMI 8226 cells was reduced significantly after 1,25-dihydroxyvitamin D3 treatment. The possible mechanisms and significance of these new functional and phenotypic properties are discussed with respect to the B-cell lineage.
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PMID:Phenotypic and functional analysis of 1,25-dihydroxyvitamin D3 receptor mediated modulation of the human myeloma cell line RPMI 8226. 283 17

Myeloma colonies (MY-CFUc) from 7/24 patients undergoing treatment with VAMP (vincristine, adriamycin and methyl prednisolone) and high dose melphalan (HDM) were melphalan-resistant. It was not possible to conclude that VAMP induced melphalan resistance in MY-CFUc, but that resistance is endogenous in some myeloma cell populations. In 12/13 of the same patients of whom four had MY-CFUc which were melphalan resistant, the sensitivity of MY-CFUc and GM-CFUc to busulphan was similar. Thus resistance of MY-CFUc to melphalan did not confer resistance to busulphan. MY-CFUc from 1/7 of a second group of patients were adriamycin-resistant. This resistance was removed when the cells were treated with a combination of verapamil (3 micrograms/ml) and adriamycin. Verapamil also enhanced the toxicity of adriamycin to MY-CFUc from two patients where there was no evidence for adriamycin resistance. In these three patients the sensitivity of both MY-CFUc and GM-CFUc was similar after treatment with verapamil. Verapamil did not affect the uptake or efflux of 3H-daunorubicin in sensitive and resistant RPMI-8226 cells (myeloma) and peripheral blood mononuclear cells from a normal donor; neither did it affect the binding of 3H-daunorubicin to nucleic acid. It is concluded that verapamil may be a useful adjuvant to VAMP chemotherapy and that busulphan may provide an alternative to melphalan in patients whose myeloma cells are melphalan resistant.
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PMID:In vitro studies of ways to overcome resistance to VAMP--high dose melphalan in the treatment of multiple myeloma. 292 7

A novel mechanism for the release of helper and suppressor factors for human IgE synthesis is described. When FcE receptor-positive RPMI-1788 cells are treated with papain, a helper factor(s) for human IgE synthesis is released. At the same time a significant decrease in the number of cell surface FcE receptors is observed. The immunoglobulin synthesis-enhancing activity is IgE isotype-specific inasmuch as the same supernatant suppresses the synthesis of human IgA myeloma cells. When the FcE receptor-positive RPMI-1788 cells are treated with tunicamycin and then with papain, a suppressor factor(s) for human IgE synthesis is released. The mechanism by which these factors affect human myeloma IgE synthesis is unclear at present. Our results indicate that enhanced IgE synthesis is not due to increased numbers of secreting cells nor to an increased release of presynthesized IgE. In summary, papain treatment of FcE receptor-positive, but not FcE receptor-negative cells, generates a factor that regulates IgE synthesis. These results also provide evidence for the close relationship between the IgE regulatory factors and the low affinity receptors for IgE present on lymphocytes.
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PMID:Regulation of human IgE synthesis by soluble factors. Papain treatment of a FcE receptor-positive B-cell line (RPMI-1788) releases regulatory factors for IgE synthesis. 296 56

A mouse monoclonal antibody named BU11 which detects an antigen strongly expressed on human plasma cells is described. The antibody stains plasma cells in tonsil sections, fresh and cultured plasmacytoid cells from the bone marrow of patients with multiple myeloma and cells of the plasmacytoid cell line RPMI 8226 used as the immunogen. In vitro studies of pokeweed mitogen (PWM) stimulated peripheral blood B cells and Epstein-Barr virus (EBV) stimulated tonsil B cells show that the antigen is present mainly on cells coexpressing the OKT10 antigen and containing cytoplasmic immunoglobulin (cIg). The BU11 antigen is expressed weakly on some normal B cells and is not present on T cells, monocytes or granulocytes. The antigen is of molecular weight 58kD under reducing conditions and is biochemically distinct from previously described plasma cell antigens.
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PMID:An antigenic study of human plasma cells in normal tissue and in myeloma: identification of a novel plasma cell associated antigen. 302 83

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