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)

Ethical and scientific concerns regarding the use of human fetal bones in the SCID-hu model of primary human myeloma prompted us to develop a novel system that uses rabbit bones implanted subcutaneously in unconditioned SCID mice. Immunohistochemical analysis of the implanted bone revealed that the majority of bone marrow (BM) microenvironment cells such as blood vessels, osteoclasts and osteoblasts were of rabbit origin. The implanted bones were directly injected with myeloma cells from 28 patients. Successful engraftment of unseparated BM cells from 85% of patients and CD138-selected myeloma plasma cells from 81% of patients led to the production of patients' M-protein isotypes and typical myeloma manifestations (osteolytic bone lesions and angiogenesis of rabbit origin). Myeloma cells grew exclusively in the rabbit bone, but were able to metastasize into another bone at a remote site in the same mouse. Cells from patients with extramedullary disease also grew along the outer surface of the rabbit bones. This demonstrates the ability of SCID-rab model, marked by a nonmyelomatous, nonhuman, and nonfetal microenvironment, to support the growth of CD138-expressing myeloma cells. This system can now be widely used to study the biology of myeloma and its manifestations and to develop novel therapeutic approaches for this disease.
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PMID:The SCID-rab model: a novel in vivo system for primary human myeloma demonstrating growth of CD138-expressing malignant cells. 1538 29

The surface expression of CD117 antigen (c-kit) on plasma cells from 158 multiple myeloma (MM), 12 plasma cell leukemia (PCL), 7 MGUS, 7 IgM lymphoplasmacytic lymphoma patients and 10 healthy subjects has been analyzed by flow cytometry using triple staining with the monoclonal antibodies CD138, CD117 and CD38. The antigen expression intensity was calculated as relative fluorescence intensity (RFI) and for direct quantitative analysis the QuantiBRITE test (Becton Dickinson) was applied. Antibody bounding capacity (ABC) was calculated using QuantiCALC software. CD117 antigen was present in 49/158 MM, 5/12 PCL and 5/7 MGUS patients. The RFI values ranged from 0.2 to 20.2 in particular MM patients (mean: 11.0+/-5.3; median 11.5) while the number of CD117 binding sites (ABC) on MM plasma cells ranged from 637 to 6217 (mean: 3029+/-1568; median 2946) (r=0.8328). In responsive to chemotherapy c-kit positive MM patients the percentage of CD117+ plasma cells in the bone marrow decreased significantly while in c-kit negative MM patients the percentage of CD117+ cells in bone marrow did not change and remained in the normal limits. When comparing the clinical and biological disease characteristics (monoclonal protein isotype, albumin, beta2-microglobulin, lactate dehydrogenase, stage of disease, response to chemotherapy, survival time) of c-kit positive and c-kit negative cases, no significant differences were found. In CD117 positive PCL cases expression of CD117 was detected in bone marrow plasma cells as well as in peripheral blood plasma cells. Normal plasma cells and those in IgM lymphoplasmacytic lymphoma did not show reactivity for the CD117 antigen. We conclude that it may be rationale to consider usefulness of therapy with tyrosine kinase inhibitors in the management of c-kit positive plasma cell proliferations. In one third of MM and PCL patients c-kit antigen could be considered as a "tumor associated marker" and together with CD38 and CD138 it may be of value for the identification of the malignant clone in minimal residual disease as it was first suggested by Spanish authors.
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PMID:C-kit receptor (CD117) expression on plasma cells in monoclonal gammopathies. 1551 18

High-dose therapy with stem cell transplantation (SCT) and novel targeted therapies (thalidomide, its more potent analogues, and bortezomib) represent two approaches for overcoming resistance of multiple myeloma (MM) cells to conventional therapies. While it is now clear that dose-intensification improves the outcome in younger patients, long-term remissions are obtained in a minority of patients. Therefore, the impact of novel agents as part of front-line therapy is the objective of ongoing trials. Gene expression profiling (GEP) will help to improve the management of MM not only by identifying prognostic subgroups but also by defining molecular pathways that are associated with these subgroups and that are possible targets for future therapies. In Section I, Dr. John Shaughnessy describes recent data obtained with GEP of CD138-purified plasma cells from patients with MM. His group has already shown that overexpression of the Wnt signaling inhibitor DKK1 by MM plasma cells blocks osteoblast differentiation and contributes to the development of osteolytic bone lesions. Recent data allow identification of four subgroups of MM in which GEP is highly correlated not only with different clinical characteristics and outcome but also with different cytogenetic abnormalities. In addition, abnormal expression of only three genes (RAN, ZHX-2, CHC1L) is associated with rapid relapses. In the context of intensive therapy with tandem autotransplantations, this model appears to be more powerful than current prognostic models based on standard biologic variables and cytogenetics. Understanding why the dysregulation of these three genes is associated with a more aggressive behavior of the disease will help to define new therapeutic strategies. In Section II, Dr. Jean-Luc Harousseau presents recent results achieved with tandem autologous SCT (ASCT) and with reduced intensity conditioning (RIC) allogeneic SCT. ASCT is now considered as the standard of care in patients up to 65 years of age. The IFM (Intergroupe Francophone du Myelome) has recently shown that double ASCT is superior to single ASCT. Current results of three other randomized trials confirm that double ASCT is superior, at least in terms of event-free survival. However, patients with poor prognostic features do poorly even after tandem ASCT. Strategies to further improve the outcome of ASCT include more intensive therapies and the use of novel agents such as thalidomide and immunomodulatory analogs (IMiDs) or bortezomib. Results of allogeneic SCT remain disappointing in MM even with T cell-depleted grafts. Preliminary results of a strategy combining ASCT to reduce tumor burden and RIC allogeneic SCT are encouraging, although the follow-up is still short. However, again, patients with chromosome 13 deletions have poor results with RIC. Longer follow-up of ongoing multicentric studies will help to clarify the indications of RIC. In Section III, Dr. Paul Richardson summarizes current knowledge of novel targeted therapies in MM. A better understanding of interactions between MM cells and bone marrow stromal cells and of the signaling cascades whereby cytokines mediate proliferation, survival, drug resistance and migration of MM cells provide the rationale for testing novel agents in relapsed/refractory MM. Increased angiogenesis coupled with the known anti-angiogenesis activity of thalidomide justified its use in refractory MM. The remarkable responses initially achieved prompted a number of clinical studies in different indications and the development of more potent IMIDs. Among them CC-5013 (Revlimid) has been tested in Phase I/II studies and a randomized Phase III study has just been completed. Blockade of NF-kappa B using the proteasome inhibitor bortezomib (Velcade) may mediate anti-MM activity by inhibiting interleukin (IL)-6 production in stromal cells and other mechanisms of action have been shown in preclinical studies. Based on the promising results of the Phase II trial, a large randomized trial of bortezomib versus dexamethasone has been completed. Studies of bortezomib combined with other drugs are ongoing. Arsenic trioxide has a number of properties showing that it targets MM cells interacting with the microenvironment. Clinical studies are ongoing as well. Other agents in MM have already been or will probably be translated soon from the bench to the bedside.
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PMID:Multiple myeloma. 1556 86

Plasmablastic lymphoma is an aggressive neoplasm that shares many cytomorphologic and immunophenotypic features with plasmablastic plasma cell myeloma. However, plasmablastic lymphoma is listed in the World Health Organization (WHO) classification as a variant of diffuse large B-cell lymphoma. To characterize the relationship between plasmablastic lymphoma and plasmablastic plasma cell myeloma, we performed immunohistochemistry using a large panel of B-cell and plasma cell markers on nine cases of plasmablastic lymphoma and seven cases of plasmablastic plasma cell myeloma with and without HIV/AIDS. The expression profiles of the tumor suppressor genes p53, p16, and p27, and the presence of Epstein-Barr virus (EBV) and human herpes virus type 8 (HHV-8) were also analyzed. All cases of plasmablastic lymphoma and plasmablastic plasma cell myeloma were positive for MUM1/IRF4, CD138, and CD38, and negative for CD20, corresponding to a plasma cell immunophenotype. PAX-5 and BCL-6 were weakly positive in 2/9 and 1/5 plasmablastic lymphomas, and negative in all plasmablastic plasma cell myelomas. Three markers that are often aberrantly expressed in cases of plasma cell myelomas, CD56, CD4 and CD10, were positive in 5/9, 2/5, and 6/9 plasmablastic lymphomas, and in 3/7, 1/5, and 2/7 plasmablastic plasma cell myelomas. A high Ki-67 proliferation index, overexpression of p53, and loss of expression of p16 and p27 were present in both tumors. No evidence of HHV-8 infection was detected in either neoplasm. The only significant difference between plasmablastic lymphoma and plasma cell myeloma was the presence of EBV-encoded RNA, which was positive in all plasmablastic lymphoma cases tested and negative in all plasma cell myelomas. In conclusion, most cases of AIDS-related plasmablastic lymphoma have an immunophenotype and tumor suppressor gene expression profile virtually identical to plasmablastic plasma cell myeloma, and unlike diffuse large B-cell lymphoma. These results do not support the suggestion in the WHO classification that plasmablastic lymphoma is a variant of diffuse large B-cell lymphoma.
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PMID:Plasmablastic lymphomas and plasmablastic plasma cell myelomas have nearly identical immunophenotypic profiles. 1557 69

NS-398, a selective inhibitor of cyclooxygenase 2 (COX-2), has been reported to inhibit growth and induce apoptosis in several cancer cell lines that overexpress COX-2. However it has not been extensively studied in multiple myeloma (MM). Here, we studied the effects of COX-2 inhibitors on MM cell lines and primary myeloma patient cells. We investigated the effects of NS-398 on proliferation and apoptosis in three myeloma cell lines (PCM6, U266 and RPMI8226) and isolated CD138-positive cells from MM patients. Furthermore, the combined effects of NS-398 plus dexamethasone (Dex) or thalidomide (Thal) were investigated. All myeloma cell lines express COX-2. NS-398 inhibited growth and induced apoptosis in PCM6, RPMI8226 and CD138-positive MM cells in a time- and dose-dependent manner. At low concentrations (10 microM), NS-398 primarily induced growth arrest without affecting cell viability, but at higher concentrations (over 25 microM), apoptosis was induced. During the process of apoptosis, the number of Fas-positive cells increased. Downstream signals of Fas, such as caspase 8, 3 and 9, were also activated. On the other hand, protein levels of the Bcl-2 family did not change, although mitochondrial transmembrane potential ((Delta)(psi)m) was decreased. Combined incubation with Dex or Thal enhanced NS-398-induced growth inhibition and apoptosis in RPMI8226 cells. The combined effect of Dex was more potent than that of Thal. Our findings suggests that COX-2 plays an important role in regulation of apoptosis in myeloma cells, and COX-2 inhibitors might serve as an effective tool for future chemoprevention and/or treatment of myeloma.
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PMID:Selective cyclooxygenase 2 inhibitor NS-398 induces apoptosis in myeloma cells via a Bcl-2 independent pathway. 1562 34

The study was aimed at the proper detection of surface and cytoplasmic clonal Ig light/heavy chains in the frame of multiparameter flow cytometry analysis of some B-cell malignancies. An exact direct evidence has been obtained that the leukemia cells following staining by antibodies to immunoglobulins will need to be washed to eliminate free plasma Igs. The results of proper Ig detection with simultaneous unaltered staining of further 2-3 markers on the cell surface after elimination of free plasma Ig in the whole blood sample are described. In differential diagnosis of some chronic B-cell malignancies and subclassification of some acute B-leukemias the detection of intracytoplasmic light/heavy chain Igs is required. The unique phenotypic structures of multiple myeloma (MM) cells have been utilized in our approach to detect cytoplasmic Ig light and heavy chains. A modified 2-step method for analysis of cytoplasmic immunoglobulin light chains by flow cytometry in MM patients was used and the method was extended for measurement of IgM heavy chain in B-ALL. For membrane staining in MM patients cells the combination of CD45-FITC and CD138-PE was used; the CD138 was found to be more specific than CD38 for MM cells. The whole blood cells were lysed, acquired on flow cytometry (first acquisition), then permeabilized by paraformaldehyde and saponin, and incubated with anti-kappa-FITC and anti-lambda-FITC antibodies and acquired again (second acquisition). In B-ALL patients cells in first step the combinations of CD45-FITC or CD22-FITC and CD10-PE have been successfully applied and after RBC lysis, acquisition and membrane permeabilization anti-IgA-FITC and anti-IgM-FITC were applied and cells were acquired again. The FITC fluorescence intensity of the second measurement was equal to the sum of surface CD45 or CD22 marker expression during the first step, and cytoplasmic clonal light or heavy chains expression during the second acquisition in both, MM and pre-B ALL patients, as well.
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PMID:Analysis of surface and cytoplasmic immunoglobulin light/heavy chains by flow cytometry using a lysed-whole-blood technique: Implications for the differential diagnosis of B-cell malignancies. 1564 Sep 50

We describe an 89-year-old woman who presented with prominent plasmacytosis mimicking plasma cell leukemia. The apparent serum M-protein level of > 7 g/dL of gamma mobility was revealed to be a polyclonal increase of immunoglobulins. The plasma cells in the peripheral blood expressed polyclonal surface/cytoplasmic immunoglobulins as well as CD19, CD30, CD38, and CD138 antigens but lacked CD10, CD20, CD25, and CD56. The bone marrow plasma cells showed the CD45+, CD19+, CD56-, MPC-1(-/+), and CD49e- immunophenotype, which was in clear contrast with the immunophenotypes of the neoplastic myeloma cells. Abdominal lymphadenopathy, splenomegaly, and a high level of soluble interleukin 2 receptor may have been reflections of an underlying lymphoproliferative disorder, potentially leading to the polyclonal proliferation of plasma cells.
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PMID:Polyclonal proliferation of plasma cells associated with marked hypergammaglobulinemia in an elderly patient. 1571 91

Cyclooxygenase 2 (COX-2) is an inflammation-associated enzyme involved in the pathogenesis of many solid tumors, but little is known about its presence and role in hematologic neoplasms. Multiple myeloma (MM) is known to involve a deregulated cytokine network with secretion of inflammatory mediators. We thus decided to investigate the involvement of COX-2 in this neoplasm. Western blotting (WB) was used to evaluate 142 bone marrow (BM) specimens, including MM and monoclonal gammopathy of undetermined significance (MGUS). Selected cases under-went further evaluation by WB on purified CD138(+) cells, immunohistochemistry (IC), and real-time polymerase chain reaction (PCR) for mRNA expression. COX-2 was expressed in 11% (2 of 18) of MGUS specimens, 31% (29 of 94) of MM at diagnosis, and 47% (14 of 30) of MM with relapsed/refractory disease. COX-2 positivity was associated with a poor outcome in terms of progression-free (18 vs 36 months; P < .001) and overall survival (28 vs 52 months; P < .05). Real-time PCR showed COX-2 mRNA overexpression. IC and cell separation studies demonstrated COX-2 expression to be restricted to malignant plasma cells. This is the first report of the presence and prognostic role of COX-2 expression in MM. Future studies will assess COX-2 involvement in other hematologic tumors and its potential use as a therapeutic or chemo-preventive target in onco-hematology.
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PMID:Cyclooxygenase-2 (COX-2) is frequently expressed in multiple myeloma and is an independent predictor of poor outcome. 1573 Nov 78

In this study we quantified the proliferation rate of normal and malignant plasma cells (PCs) by ex vivo incorporation of 5-bromo-2'-deoxyuridine (BrdU; labeling index, LI) using flow cytometry. We show that all bone marrow PCs, either normal or malignant, include a subset of proliferating PCs present within the CD45(bright) fraction. Indeed, medullary normal and malignant PCs were always heterogeneous for CD45 expression, and proliferation was always restricted primarily to the CD45(bright) compartment. Moreover, an inverse correlation was found between LI or CD45 and B-cell lymphoma 2 (Bcl-2) in both malignant and normal PCs, the most proliferating CD45(bright) PCs have the lowest Bcl-2 expression. We investigated expression of molecules of interest in multiple myeloma (MM)-that is, CD138, CD19, CD20, CD27, CD28, CD56, and CD11a-to further characterize the CD45(bright) fraction. Among all of these molecules, only CD11a was exclusively expressed by CD45(bright) proliferating myeloma cells. In conclusion, proliferating myeloma cells are characterized by the specific CD45(bright) CD11a(pos) Bcl-2(low) phenotype.
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PMID:Phenotypic characterization of the human myeloma cell growth fraction. 1574 Dec 17

Little is known about the DNA cell content and cell cycle characteristics of immunoglobulin (Ig) M monoclonal gammopathies. The autonomous clone appears to be rather heterogeneous, from mature B lymphocytes to plasma cells (PCs). We have evaluated the DNA cell content of 27 patients with IgM monoclonal gammopathies: 18 of them had Waldenstrom's macroglobulinemia (WM), and 9 were diagnosed with IgM-monoclonal gammopathy of undetermined significance (MGUS). To specifically analyze the cell cycle of the B lymphocyte and PC populations, we used a flow-cytometric double-staining technique with CD19/CD20/CD22 propidium iodide for B lymphocytes and CD38/CD138 propidium iodide for PCs. In 26 of 27 patients, both subsets of tumor cells (B lymphocyte and PC) showed a diploid DNA cell content (DNA index, 1). The median percentage of proliferating B lymphocytes, S-phase + G2/M-phase, was 1.8% (range, 0.4%-4.1%). This proliferative activity was significantly lower than that observed in nonmalignant cells (5.7%; range, 0.1%-14.2%; P = 0.004) in the same sample. No differences were observed when comparing the proliferative activity of WM with that of IgM MGUS (median, 1.7% vs. 2.2%, respectively). Cell cycle characteristics of PCs were simultaneously evaluated in 9 patients, with 1.8% cells in S phase or G2/M phase. In summary, the cell cycle analysis showed that IgM monoclonal gammopathies are low-proliferative disorders, with a DNA ploidy pattern (diploid) clearly different from that of multiple myeloma.
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PMID:Cell cycle analysis of Waldenstrom's macroglobulinemia. 1579 58

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