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)

We describe the case of a 64-year-old woman with isolated severe factor X deficiency associated with kappa light chain myeloma. At the time of diagnosis there was no evidence for amyloidosis. Complete remission (CR) of myeloma as well as normalization of factor X levels were achieved after cytostatic chemotherapy. Subsequently, factor X deficiency recurred twice without any evidence for relapse of myeloma. The first time factor X normalized again following cytostatic treatment, the second time, however, factor X deficiency was refractory to chemotherapy. Finally, relapse of myeloma became evident associated with rapidly progressing, systemic amyloidosis, which was fatal within a few months. Initially, factor X infusion studies showed a normal recovery, but when amyloidosis became overt the recovery decreased to 0%. We assume that factor X deficiency was due to a binding of factor X to kappa light chains associated with the proliferation of the malignant myeloma cell clone.
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PMID:Recurrent, isolated factor X deficiency in myeloma: repeated normalization of factor X levels after cytostatic chemotherapy followed by late treatment failure associated with the development of systemic amyloidosis. 128 79

Ascites is an unusual feature of multiple myeloma. We report a case of ascites occurring early in the course of a patient with myeloma in whom there was no evidence of intra-abdominal plasmacytoma, and the skeleton was relatively spared. The serum contained predominantly polymeric IgA, a feature not investigated in previous cases. We reviewed the relevant literature and will discuss the suggestion that human myelomas presenting with the triad of ascites, relative or absolute sparing of the skeleton, and an IgA paraprotein bear an analogy to mouse myelomas induced by intraperitoneal instillation of irritants. The relevance of polymeric IgA is discussed with respect to tissue origin of the paraprotein. Seventeen cases were identified consistent with a definition of "myelomatous ascites" (malignant myeloma in which plasma cells and/or monoclonal immunoglobulin can be demonstrated in ascitic fluid). IgA immunoglobulin class was present at three times the incidence seen in myelomas in general (five of seven cases were specified). In twelve patients there was no identifiable intra-abdominal plasmacytoma although liver infiltration was common. Amyloidosis was reported in only one case, and no cases of uncomplicated plasma cell leukemia were noted. Ascites was a presenting feature in five cases. In each of these five there was absolute or relative sparing of the skeleton, four had no evidence of plasmacytoma, and the paraprotein was IgA in three, IgG in one, and unreported in one. In no case was there a known history of chronic intra-abdominal irritation.
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PMID:Myelomatous ascites. 407 13

Our knowledge in immunology has been dramatically increased by several excellent investigations elucidating the role of the Fas (Apo-1/CD95) receptor/ligand (FasL) system in complex immunological processes such as the acquisition of self tolerance in T cells, progression of autoimmunity, clonal deletion of activated T cells, B-cell regulation and the establishment of "immune privileged" sites such as testis or retina. In addition to these regulatory immunological activities, Fas/FasL interaction was also shown to participate in active defense mechanisms of the host against infected or transformed cells thereby inducing apoptosis in target cells. However, the same mechanism seems also to be part of an escape strategy utilized by tumor cells in various neoplastic malignancies of both hematopoetic as also non-hematopoetic origin. We ourselves were able to demonstrate that neoplastic plasma cell lines, as well as native malignant myeloma cells constitutively express FasL mRNA and protein. The FasL molecule is functionally active and able to induce programmed cell death in Fas sensitive target T cells in vitro. These target T cells were protected from programmed cell death by preincubation of T cells with a Fas-blocking monoclonal antibody (mAb) or of myeloma cells with a FasL-neutralizing mAb. respectively. Furthermore, overexpression of the caspase inhibitor, cowpoxvirus protein CrmA, also protected target T cells from being killed by myeloma cells, identifying Fas/FasL mediated signaling as the effector pathway utilized by malignant plasma cells. Our observations strongly suggest the engagement of Fas/FasL interaction in the escape strategy of this malignancy. The molecular basis of this evasive mechanism differs in essential respects from those described in melanoma, lung cancer, hepatocellular carcinoma, or astrocytoma, since downregulation of Fas or instrinsic insensitivity towards Fas-mediated signaling were not prerequisites for the occurrence of this phenomenon in Fas-sensitive multiple myeloma cell lines. However, myeloma cell lines resisted cocultivation with FasL-expressing target T cells in vitro. The aim of this review is to discuss the role of Fas/FasL interaction in the establishment of malignant disease, in the light of our findings on myeloma cells and also by drawing upon similar observations of other investigators on different kinds of tumor cells and cell lines and further to consider its possible relevance in formulating novel approaches to cancer therapy.
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PMID:On the role and significance of Fas (Apo-1/CD95) ligand (FasL) expression in immune privileged tissues and cancer cells using multiple myeloma as a model. 992 38

Impaired hematopoiesis and dysregulated cytokine expression have important implications for cancer in the elderly. In aged people, hematopoiesis is dysregulated and becomes paradoxically down-modulated under periods of increased hematopoietic demand. This down-modulation may explain, at least in part, the increased incidence of anemia in the elderly, although the cause of anemia can usually be identified in these patients and frequently reversed with targeted therapy. An age-associated decrease in the expression of interleukin-2 may contribute to impaired cellular immunity. Additionally, the increased interleukin-6 production frequently found in the elderly may participate in promoting the survival and proliferation of malignant myeloma and in inducing resistance by myeloma cells to therapies that act through apoptosis. Dysregulation of the expression of these and other cytokines may be a mechanism contributing to age-related impairment of the hematopoietic response, the genesis and therapeutic resistance of specific malignancies, and cancer cachexia.
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PMID:Hematopoiesis and cytokines. Relevance to cancer and aging. 1068 71

Highly malignant myeloma cells up-regulate their Fas-ligand (Fas-L) to escape immune surveillance by Fas(+) cytotoxic cells. Here it is demonstrated that this abnormality is involved in the pathogenesis of the severe anemia associated with progression of multiple myeloma (MM). By measuring Fas and Fas-L in plasma cells and erythroblasts from 19 MM patients and 5 with monoclonal gammopathies of undetermined significance (MGUS), it was found that both Fas-L(+) myeloma cells and Fas(+) erythroid progenitors were significantly increased in patients with stage III MM whose erythroblasts, cultured in the presence of autologous plasma cells or their supernatant, underwent prompt apoptosis as evaluated by propidium iodide staining, the TUNEL assay, and detection of the APO2.7-reactive mitochondrial antigen. Flow cytometry of fresh erythroblasts revealed a considerable expression of the caspases CPP32 and FLICE in both their constitutive proenzymatic forms and in cleaved subunits. By contrast, their intracytoplasmic expression was defective in patients with inactive disease and MGUS controls. The evidence that Fas-L(+) myeloma clones directly prime erythroblast apoptosis in vivo was further supported by the occurrence of fluorescein isothiocyanate-TUNEL(+) erythroblasts juxtaposed to myeloma cells in bone marrow smears. These results strongly suggest that the deregulated apoptosis in myeloma clones plays an active role in the progressive destruction of the erythroid matrix by a cytotoxic mechanism based on up-regulation of Fas-L.
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PMID:Fas-L up-regulation by highly malignant myeloma plasma cells: role in the pathogenesis of anemia and disease progression. 1122 56

Originating from a post-switch memory B cell or plasma cell compartment in peripheral lymphoid tissues, malignant myeloma cells accumulate in the bone marrow of patients with multiple myeloma. In this favorable microenvironment their growth and survival are dependent upon both soluble factors and physical cell-to-cell and cell-to-extracellular matrix contacts. In this report we show that hyaluronan (HA), a major nonprotein glycosaminoglycan component of the extracellular matrix in mammalian bone marrow, is a survival and proliferation factor for human myeloma cells. The effect of HA is mainly mediated through a gp 80-interleukin 6 (IL-6) receptor pathway by a CD44-independent mechanism, suggesting that HA retains and concentrates IL-6 close to its site of secretion, thus favoring its autocrine activity. In addition, we show that HA-mediated survival and proliferation of myeloma cells is associated with a down-regulation in the expression of p27(kip1) cyclin-dependent kinase inhibitor and a hyperphosphorylation of the retinoblastoma protein (pRb). These data suggest that HA could be an important component in the myeloma cell physiopathology in vivo by potentiating autocrine and/or paracrine IL-6 activities.
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PMID:Hyaluronic acid induces survival and proliferation of human myeloma cells through an interleukin-6-mediated pathway involving the phosphorylation of retinoblastoma protein. 1127 72

Multiple myeloma (MM) is associated with severe normochromic/normocytic anemia. This study demonstrates that the abnormal up-regulation of apoptogenic receptors, including both Fas ligand (L) and tumor necrosis factor-related apoptosis-inducing ligand (TRAIL), by highly malignant myeloma cells is involved in the pathogenesis of the ineffective erythropoiesis and chronic exhaustion of the erythroid matrix. By measuring Fas-L and TRAIL in plasma cells and the content of glycophorin A (GpA) in erythroblasts from a cohort of 28 untreated, newly diagnosed patients with MM and 7 with monoclonal gammopathy of undetermined significance (MGUS), selected in relation to their peripheral hemoglobin values, results showed that both receptors occurred at high levels in 15 severely anemic MM patients. Their marrow erythropoietic component was low and included predominantly immature GpA(+dim) erythroblasts, in contrast with the higher relative numbers of mature GpA(+bright) erythroid cells observed in the nonanemic patients and those with MGUS. In cocultures with autologous Fas-L(+)/TRAIL(+) myeloma cells, the expanded GpA(+dim) erythroid population underwent prompt apoptosis after direct exposure to malignant plasma cells, whereas erythroblasts from nonanemic patients were scarcely affected. The evidence that Fas-L(+)/TRAIL(+) malignant plasma cells prime erythroblast apoptosis by direct cytotoxicity was also supported by the increase of FLICE in fresh immature GpA(+dim) erythroid cells, whereas ICE and caspase-10 increased in subsequent maturative forms. In addition, GATA-1, a survival factor for erythroid precursors, was remarkably down-regulated in fresh erythroblasts from the severely anemic patients. These results indicate that progressive destruction of the erythroid matrix in aggressive MM is due to cytotoxic mechanisms based on the up-regulation in myeloma cells of Fas-L, TRAIL, or both. It is conceivable that the altered regulation of these receptors defines a peculiar cytotoxic phenotype that drives the progression of aggressive MM.
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PMID:Negative regulation of erythroblast maturation by Fas-L(+)/TRAIL(+) highly malignant plasma cells: a major pathogenetic mechanism of anemia in multiple myeloma. 1183 Apr 80

Adjunctive anti-bone resorption therapy has become an important part of multiple myeloma (MM) treatment. Currently, no definite evidence exists that this therapy increases survival. We examined a cohort of 13 of 167 patients (8%) treated with the M-2 protocol who received adjuvant gallium nitrate (GN) treatment for osteolysis, and then compared the outcome of these patients to all individuals treated with the M-2 regimen. The stage at diagnosis was IA in two patients, IIIA in 10 patients and IIIB in one. Median age at diagnosis was 51 years (range 35-73). Median (range) of entry data were: paraprotein level: 6000mg/dl (3058-8675); beta2M: 2.7mg/l, (1.2-9.6); LDH: 166U/l (142-237); hemoglobin: 10.2 g/dl (8.3-12.6); albumin: 3.7 g/dl (2.5-5.0); calcium: 10.0 mg/dl (8.3-14.5); creatinine: 1.2 mg/dl (0.7-2.7). Median survival in these patients was 87+ months from time of diagnosis compared with 48 months for all other patients treated on the M-2 protocol. We identified a subgroup of patients with remarkably prolonged survival who had received M-2 chemotherapy and GN. Survival in this group markedly exceeds expectations for patients with advanced stage disease and poor prognostic features. The administration of GN may have a positive impact on survival either by decreasing skeletal complications or through a direct action of GN on the complex cytokine network involved in the proliferation of the malignant myeloma cell.
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PMID:Extended survival in advanced-stage multiple myeloma patients treated with gallium nitrate. 1200 65

In addition to signaling proliferation, growth factors may contribute to the persistence of hematopoietic tumors upon chemotherapeutical challenge. In multiple myeloma, malignant growth is mediated either by paracrine interleukin-6 (IL-6) elaborated by bone marrow stromal cells or via autocrine loops by malignant myeloma cells themselves. Although melphalan is one of the most active drugs in this tumor entity, the development of drug resistance frequently impedes cure of patients by attenuating melphalan-induced DNA-damage. We analyzed whether IL-6 protects XG-1 cells and plasma cells of a patient suffering from end-stage multiple myeloma (plasma cell leukemia) from melphalan with respect to DNA damage and DNA repair. Investigating the housekeeping gene glucose-6-phosphate dehydrogenase (G6PD) by using a PCR-stop assay, we found that there was more DNA damage in the G6PD gene of IL-6 deprived XG-1 and the patient's plasma cells, respectively, than in those with IL-6 supplementation. After cessation of melphalan exposure and 24 hours post-incubation in melphalan-free medium, DNA repair was observed in the patient's plasma cells but not in XG-1 cells. There was more DNA repair with IL-6 addition than without IL-6 addition. Similarly, the apoptotic cell fractions, as measured by flow cytometry, were lower if IL-6 was added to the medium. These results indicate that IL-6 may contribute to drug resistance in multiple myeloma.
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PMID:Interleukin-6 affects melphalan-induced DNA damage and repair in human multiple myeloma cells. 1201 94

In B cell development, interleukin-6 (IL-6) induces terminal maturation of B lymphocytes into antibody producing plasma cells. Terminal differentiated B cells cell cycle arrest and death follows. In contrast, IL-6 acts as a growth factor for malignant myeloma plasma cells and in some cases protects them from therapeutic treatment. In this study, we examined two cell lines that show different responses to IL-6. Lymphoblastoid CESS cells respond to IL-6 by terminally differentiating into antibody producing plasma cells, cell cycle arrest, and undergo cell death. Continuous addition of IL-6 to these cells induces transient activation of STAT3, SHP-2 phosphorylation, and does not alter bcl-X(L) and c-myc expression. In contrast, the myeloma line ANBL6 proliferates when stimulated with IL-6 and this correlates with prolonged STAT3 activation and up-regulation of bcl-X(L) and c-myc. Interestingly, gp130-associated SHP-2 phosphorylation was detected in the IL-6-induced CESS cells but not myeloma cell lines. The data show a very distinct IL-6 signal transduction and kinetics in these cell lines and the distinct molecular events correlate closely to the cell fate of the lymphoblast and myeloma cell lines.
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PMID:Distinct IL-6 signal transduction leads to growth arrest and death in B cells or growth promotion and cell survival in myeloma cells. 1204 Apr 51


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