Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

To find out which cytokines are involved in the pathogenesis of multiple myeloma, we investigated cytokine receptor expression on myeloma cells using a panel of monoclonal antibodies (MoAbs). Flow cytometric analysis of five myeloma cell lines (RPMI8226, ARH77, KMM-1, U266, and Hs) and myeloma cells freshly isolated from eight patients showed that interleukin-1 receptor (IL-1R) type I and type II, IL-2R alpha and beta chains, IL-4R, IL-6R, IL-7R, IL-8R, granulocyte macrophage colony-stimulating factor receptor (GM-CSFR), c-kit (stem cell factor receptor [SCFR]), membrane bound stem cell factor (MBSCF), and tumor necrosis factor (TNF) receptors type I and type II were not always detected on the myeloma cells. However, interferon-gamma receptor, gp130, and Fas antigen were constitutively expressed, except one sample. To determine the role of Fas antigen on myeloma cells, these cells were cultured with anti-Fas MoAb. Apoptotic changes characterized by loss of cell volume, membrane blebbing, fragmentation of nuclei, and condensed chromatin were observed in three of five myeloma cell lines. When bcl-2 expression was examined, it was seen in all the cell lines regardless of the sensitivity to anti-Fas MoAb. Furthermore, anti-Fas MoAb not only induced apoptosis of freshly isolated myeloma cells but also inhibited the DNA synthesis, although such effects varied from patient to patient. The data indicate that only some myeloma cells undergo apoptosis in response to the signal mediated by the Fas antigen.
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PMID:Myeloma cells express Fas antigen/APO-1 (CD95) but only some are sensitive to anti-Fas antibody resulting in apoptosis. 753 May 6

Interleukin-4 (IL-4), originally identified as a B-cell growth factor, has been shown to inhibit certain stages of hematopoietic stem cells. Recently, IL-4 has been recognized as a negative regulatory factor in the growth of hematologic malignancy. In myeloid leukemias, IL-4 can suppress the growth of growth factor-dependent leukemic blast cells derived from acute myelogenous leukemia (AML). IL-4 also suppresses the growth of chronic myelomonocytic leukemia cells through inhibiting the "autocrine" production of IL-6 or granulocyte/macrophage colony-stimulating factor. In lymphoid malignancies, IL-4 can inhibit the proliferation of neoplastic cells from Ph1-positive acute lymphoblastic leukemia, non-Hodgkin's B-cell lymphoma, and multiple myeloma. Thus, IL-4 is expected to be useful as a therapeutic agent for these hematologic malignancies.
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PMID:The role of interleukin-4 in the negative regulation of leukemia cell growth. 768 64

The association of plasma cell myeloma and eosinophilia is rare. The authors describe a 49-year-old man with plasma cell myeloma and marked absolute peripheral blood eosinophilia, 109.7 x 10(9)/L. Analysis of his bone marrow revealed cytologically atypical plasma cells that expressed monotypic IgG lambda and marked eosinophilia with normal maturation. A combination of steroids and chemotherapy resulted in a significant and sustained decrease in his absolute eosinophil count and bone marrow plasma cells. Analysis of the patient's pre-therapy serum revealed immunoreactive interleukin-3 (IL-3), but not IL-5 or granulocyte/macrophage colony stimulating factor (GM-CSF). The post-therapy serum sample was negative. Immunohistochemical analysis of the plasma cells for IL-3 and IL-5 was negative. This review of the literature has revealed five cases of plasma cell myeloma associated with eosinophilia described previously. In two patients, the eosinophilia was attributed to drug therapy. In the remaining cases, the pathogenesis of the eosinophilia was unexplained. In this case, IL-3 secreted either by the neoplastic cells at a level below detection by immunohistochemistry or by other cells in response to the presence of plasma cell myeloma may have played a role in causing the eosinophilia.
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PMID:Plasma cell myeloma associated with eosinophilia. 774 Nov 3

Although the hairy cells (HCs) of hairy cell leukaemia (HCL) are now thought to be a form of activated B cell, they have long been known to possess certain monocytoid characteristics. Since the proto-oncogene c-fms is a feature of cells of the monocyte/macrophage lineage, we examined HCs for c-fms expression. We found that approximately 80% of peripheral blood HCs expressed the c-fms protein (8/8 cases). Expression of the 150 kD protein by HCs was shown using three different techniques, APAAP, immunofluorescence and immunoprecipitation, using two different antibodies. Other mature B cell lymphoproliferative disorders examined (PLL, CLL and multiple myeloma) did not express c-fms. We also examined the c-fms expression of normal B-cells: both the in vivo activated (low density) fraction of tonsil B cells and tonsil B cells activated in vitro with SAC plus IL-2 expressed the c-fms protein. As in the case of monocytes c-fms expression by HCs was shown to be down regulated by its ligand M-CSF, and by TNF alpha, both caused a decrease in the receptor expression from 80% to 30% and in the intensity of staining from 6 to 3 x 10(4) molecules/cell. However, as for monocytes, GM-CSF treatment of HCs had no effect on the expression of c-fms; alpha IFN also had no effect. M-CSF treatment of HCs also induced phosphorylation of c-fms, and a number of other proteins, on tyrosine. However, M-CSF was unable to induce HC proliferation either alone or in combination with IL-2, IL-4 or IL-6; in addition it had no effect on HC proliferation induced by SAC, anti-mu or TNF alpha. In addition, M-CSF either alone, or in combination with the above cytokines, had no effect on the differentiated state of HCs as shown by both immunoglobulin secretion and surface antigen expression. M-CSF also had no effect on the morphology or long-term survival of HCs in culture. This study therefore demonstrates that both HCs and activated B-cells express c-fms, and that M-CSF binds to and activates its receptor on HCs. Although c-fms and several other proteins were shown to be phosphorylated in response to M-CSF, the functional consequences of this phosphorylation remain unclear.
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PMID:C-fms protein expression by B-cells, with particular reference to the hairy cells of hairy-cell leukaemia. 830 20

The neonatal spleen:myeloma hybridoma cell, NBXFO, with immunosuppressive properties supported rodent hematopoietic colony formation. We identified this hybridoma to be an undifferentiated fibroblast that produced macrophage colony-stimulating factor (M-CSF). The bone marrow cells that grew in the presence of the NBXFO supernate were macrophages and were immunosuppressive towards lymphocytes. Neutralizing anti-M-CSF antibody partially inhibited the actions of the neonatal splenic suppressor cells. Neonatal splenocytes, but not the other parental cell line, FO, induced macrophage colony formation, possessed surface-associated M-CSF, and possessed M-CSF-specific transcripts. Therefore, we believe that the M-CSF-producing phenotype was contributed by a fibroblastic stromal cell and that these stromal cells could be responsible for the in situ generation of neonatal splenic suppressor cells.
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PMID:The identification of the neonatal NBXFO hybridoma cell and its mediator. 859 24

Three major molecules have been recognized as IgE-binding structures on hematopoietic cells: the heterotrimeric high-affinity receptor for IgE (Fc epsilon RI), the low-affinity receptor for IgE (Fc epsilon RII/CD23) and the Mac-2/IgE-binding protein (epsilon BP). The latter has been shown to be expressed on polymorphonuclear neutrophils (PMN), where it regulates IgE-dependent activation. Experiments were undertaken to determine whether the IgE-binding capacity of PMN is mediated exclusively by this molecule. No detectable binding of human myeloma IgE to unstimulated PMN from normal volunteers could be evidenced. In contrast, PMN stimulated with granulocyte macrophage colony stimulating factor (GM-CSF) (500 U/ml) for 24 h displayed positive IgE binding. This binding was significantly inhibited in the presence of mAb directed against Mac-2/epsilon BP and also in the presence of anti-CD23 mAb, but not of anti-Fc epsilon RI mAb or isotype-matched controls. By flow cytometry, CD23 expression was detected on GM-CSF-primed PMN by several anti-CD23 mAb, including EBVCS-5, BB10 or Mab135, which recognize different epitopes. CD23 was also evidenced by immunocytochemistry in GM-CSF-primed PMN. By in situ hybridization, GM-CSF-treated PMN exhibited a hybridization signal for CD23 mRNA and the presence of the CD23b isoform-specific mRNA was detected by RT-PCR. These findings indicate that PMN can synthesize CD23 molecules under GM-CSF induction. This strong CD23 expression might be of physiopathological relevance in IgE-dependent activation during allergic processes.
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PMID:Granulocyte macrophage colony stimulating factor induces Fc epsilon RII/CD23 expression on normal human polymorphonuclear neutrophils. 872 38

Cytokine messenger RNA expression was studied using the reverse transcription/polymerase chain reaction in 23 patients with multiple myeloma (MM), 16 with monoclonal gammopathy of undetermined significance (MGUS), 12 with post menopausal osteoporosis, (OP) and 12 normal controls. Messenger RNAs for IL-1 alpha, IL-1 beta, TNF-alpha, TNF-beta, IL-6 and M-CSF were sought in view of their reported pathogenic role in myeloma. Transcripts for IL-1 beta, TNF-alpha, TNF-beta and M-CSF were found frequently in all four groups of patients. The only significant difference in cytokine expression between the groups was for IL-6 which was expressed in 17% of controls compared with 87% of patients with MM (p < 0.001), 62% of patients with MGUS (p < 0.02) and 67% of patients with osteoporosis (p < 0.02). Further analysis of IL-6 expression by quantitative PCR showed significantly higher IL-6 mRNA levels in MM compared with MGUS (p < 0.006). There was no correlation however between expression of individual cytokines and clinical features of myeloma such as osteolytic bone disease or hypercalcaemia. We conclude that expression of IL-6 mRNA is significantly enhanced in multiple myeloma when compared with MGUS. However, since MGUS and osteoporosis were also associated with a high prevalence of IL-6 expression when compared with controls it is probable that factors other than IL-6 are responsible for the local osteolytic lesions which characterise MM, but which are not seen in MGUS or osteoporosis.
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PMID:Cytokine expression in multiple myeloma and monoclonal gammopathy: analysis by reverse transcription/polymerase chain reaction and quantitative PCR. 904 67

A 51-year-old man was admitted to our hospital in December 1993, because of fatigue. Peripheral blood tests showed a WBC of 49,400/microliter with 36% plasma cells and 35% monocytes, Hb 14.5 g/dl, and Plt 137,000/microliter. Bone marrow aspirate revealed hypercellularity with 48.7% plasma cells and 22.4% monocytes. Plasma cells in blood were positive for CD38 and PCA-1. Serum calcium, IgA and M-CSF levels were elevated to 14.1 mg/dl, 2,337 mg/dl and 2.7 ng/ml, respectively. Immunoelectrophoresis of serum and urine revealed IgA lambda type M protein and lambda type Bence Jones protein, respectively. Rearrangements of immunoglobulin heavy chain and light chain were demonstrated by Southern blotting analysis. Plasma cell leukemia (IgA lambda type) was diagnosed. He was treated with combination chemotherapy and IFN-alpha and achieved complete remission. However, he suffered a meningeal relapse in February 1995, and died in April 1996. It seems likely that the enhanced production of M-CSF by myeloma cells and/ or activated B cells stimulated monocyte production.
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PMID:[Plasma cell leukemia associated with monocytosis]. 926 65

Twenty-two patients with multiple myeloma (MM) with a classical t(11;14)(q13;q32) and two complex variants also involving 11q13 and 14q32 regions are reported. We show that t(11;14) (q13;q32) is predominantly noticed in stages II and III and never in stage I patients. Translocation (11;14)(q13;q32) is predominantly observed in hypodiploid or pseudodiploid clones associated with total or partial monosomy of chromosome 13 and additional structural changes in chromosome 1. These translocations may be discovered not only in standard cultures (24-48 hours) without stimulation, but also in cytokine-stimulated cultures (granulocyte macrophage colony-stimulating factor and interleukin 6). The t(11;14)(q13;q32) as a primary or secondary event in MM is discussed, because, in one patient, it was only discovered at relapse.
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PMID:Cytogenetics in multiple myeloma: a multicenter study of 24 patients with t(11;14)(q13;q32) or its variant. 966 7

It has been shown that granulocyte/macrophage colony stimulating factor (GM-CSF) is able to support myeloma cell propagation in cooperation with interleukin (IL)-6, the major growth factor for malignant plasma cells, although the biological mechanisms involved remain unknown. Therefore we investigated (i) the expression levels of the GM-CSF receptor (GM-CSFR) constituents in three malignant plasma cell lines and in native malignant plasma cells, (ii) the ability of the receptor to mediate common signalling pathways regulating proliferation and cell survival in malignant plasma cell lines, and (iii) the effects of GM-CSF on tumour cell biology. The GM-CSFRalpha subunit was detected in the malignant plasma cell lines RPMI-8226, MC/CAR, IM-9 as well as 6/6 native myeloma cell samples derived from the bone marrow of patients with overt disease. Furthermore, GM-CSFR expression was also detected in the CD19+ fraction from 2/3 bone marrow samples and 5/8 peripheral blood samples derived from patients with malignant plasma cell disorders, but not in the CD19+ fraction of peripheral blood from healthy donors. The expressed cytokine receptor alpha-subunit was able to constitute a functional signalling complex with the ubiquitously expressed GM-CSFRbeta subunit, as demonstrated by the fact that GM-CSF induced the p21-ras/mitogen-activated protein kinase (MAPK) signalling cascade in malignant plasma cell lines. Since this signalling cascade plays an essential role in the mediation of both proliferation and cell survival, we investigated the impact of GM-CSF on these two events. Application of GM-CSF led to an increase of DNA-synthesis in MC/CAR, IM-9 and RPMI-8226 cells. Furthermore, it increased longevity of these malignant plasma cell lines by reducing the rates of spontaneous apoptosis. We conclude that (i) the functional GM-CSFR is commonly expressed on malignant plasma cells and that (ii) GM-CSF promotes the clonal expansion of myeloma cells by inhibiting spontaneous apoptosis and promoting DNA synthesis.
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PMID:Functional granulocyte/macrophage colony stimulating factor receptor is constitutively expressed on neoplastic plasma cells and mediates tumour cell longevity. 973 60


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