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)

Bone involvement is a rare event in lymphomas, except in patients with adult T-cell leukemia/lymphoma associated with HTLVI. It is usually characterised by lytic bone lesions located in the metaphysis of long bones or in the axial skeleton. The occurrence of bone lesions reflects a progression of the disease affecting the prognosis that is related to lymphoma histologic features and staging. Bone lesions may occur in some lymphoproliferative disorders such as LLC or Waldenstrom's disease, or in myeloproliferative disorders. They may reflect a progression to a more aggressive disorder with a worse prognosis. The treatment of hematologic malignancies presenting with bone lesions and/or hypercalcemia is similar to the treatment of the systemic disease. In primary lymphomas of bone presenting with an isolated bone lesion, local treatment with radiation therapy and/or surgical ablation is required, and adjuvant chemotherapy may improve the prognosis of these located lymphomas. Glucocorticoid therapy and bisphosphonates are effective in treating associated hypercalcemia. Except for myeloma and ATL, the underlying mechanisms responsible for bone involvement in hematologic malignancies remain poorly understood. The unusual occurrence of bone lesions in these diseases probably implies distinct pathogenic mechanisms, but one can speculate that an increased expression of RANK/RANKL, the common final pathway in bone resorption, may be involved.
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PMID:Hematological malignancies and the bone (myeloma excluded). 1096 72

Osteolysis is a common complication of tumors that arise in, or metastasize to, bone. The recent discovery of key regulators of osteoclast formation and activity, including receptor activator of nuclear factor of kappaB ligand (RANKL), RANK, and osteoprotegerin (OPG), may facilitate new treatment regimes for certain tumors associated with excessive bone loss. We recently showed that the stromal cells of osteolytic giant cell tumors (GCT) of bone express high levels of mRNA encoding RANKL, relative to mRNA for the RANKL antagonist, OPG, compared with the expression patterns of other lytic and nonlytic bone tumors. In this study, we found that expression of RANKL and OPG mRNA continued by the stromal element of these tumors in a constitutive manner for at least 9 days in the absence of giant cells. Immunostaining of unfractionated GCT cultured in vitro revealed punctate cytoplasmic/membranous staining for RANKL and both cytoplasmic and extracellular matrix staining for OPG in stromal cells. Giant cells (osteoclasts) were negative for RANKL staining, but stained brightly for cytoplasmic OPG protein. We also investigated the functional relevance of these molecules for GCT osteolysis by adding recombinant OPG and RANKL to cultured GCT cells. We found that OPG treatment potently and dose-dependently inhibited resorption of bone slices by GCT, and could also inhibit the formation of multinucleated osteoclasts from precursors within the GCT. These effects of OPG were reversed by stoichiometric concentrations of exogenous RANKL. These data indicate that both the processes of osteoclast formation and activation in GCT are promoted by RANKL. Therefore, GCT represent a paradigm for the direct stimulation of osteoclast formation and activity by tumor stromal cells, in contrast to the mechanisms described for osteolytic breast tumors and multiple myeloma. The demonstration of these relationships is important in developing approaches to limit tumor-induced osteolysis.
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PMID:Osteoprotegerin inhibits osteoclast formation and bone resorbing activity in giant cell tumors of bone. 1133 17

Bone destruction is a hallmark of myeloma, with 70% to 80% of patients manifesting bone involvement. Destruction is mediated through normal osteoclasts (OCLs), which respond to local osteoclast-activating factors (OAFs) produced by myeloma cells or by other cells in the local microenvironment. OAFs implicated in myeloma bone disease include tumor necrosis factor-beta (TNFbeta), RANK ligand (RANKL), interleukin-1 (IL-1), parathyroid hormone-related protein (PTHrP), hepatocyte growth factor (HGH), interleukin-6 (IL-6), tumor necrosis factor-alpha (TNFalpha), and macrophage inflammatory protein-1-alpha (MIP-1alpha). To date, the leading candidates for OAFs are MIP-1alpha and RANKL. Adhesive interactions between marrow stromal cells and myeloma cells induce marrow stromal cells to secrete IL-6, a potent myeloma growth/survival factor that may contribute to the bone disease. Evaluation of myeloma bone disease includes plain radiographs, and newer methods, such as magnetic resonance imaging (MRI), positron emission tomography (PET) scans, technetium-99m-sestamibi (Mibi) scanning, and dual-energy x-ray absorptiometry (DEXA) scanning, may provide more complete information. In addition, biochemical markers of bone resorption are being evaluated, although the limited availability of these assays and lack of extensive testing in patients make their routine use premature. Treatment of myeloma bone disease includes radiation therapy, vertebroplasty, surgery, and bisphosphonates. New developments on the pathogenesis and treatment of myeloma bone disease present great opportunities to combat bone disease.
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PMID:Myeloma bone disease. 1148 16

Paget's disease and bone metastases in cancer patients share many common properties. Both are characterized by a localized increase in osteoclast (OCL) formation leading to bone resorption. In both Paget's disease and bone metastases the increased OCL formation and the increased osteoclastogenic nature of the bone microenvironment are mediated by common factors, namely interleukin (IL)-6 and RANK ligand (RANKL). Available data suggest that in the case of Paget's disease there is increased RANKL and IL-6 production, and IL-6 enhances the responsivity of the OCL precursors to RANKL, contributing to the elevated numbers of OCLs. In patients with multiple myeloma, 95% to 100% of whom develop bone lesions, both IL-6 and RANKL levels are increased. Bisphosphonates bind locally to the surfaces of the bone undergoing osteoclastic resorption to inhibit this process. Paget's disease has in the past and will continue in the future to provide a model to test the efficacy of bisphosphonates in inhibiting bone resorption. Paget's disease provides an ideal model in which to investigate the efficacy of the new third-generation bisphosphonates in the treatment of bone metastases as well as nonmalignant bone disease.
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PMID:Studies in Paget's disease and their relevance to oncology. 1154 71

Bone destruction, caused by aberrant production and activation of osteoclasts, is a prominent feature of multiple myeloma. We demonstrate that myeloma stimulates osteoclastogenesis by triggering a coordinated increase in the tumor necrosis factor-related activation-induced cytokine (TRANCE) and decrease in its decoy receptor, osteoprotegerin (OPG). Immunohistochemistry and in situ hybridization studies of bone marrow specimens indicate that in vivo, deregulation of the TRANCE-OPG cytokine axis occurs in myeloma, but not in the limited plasma cell disorder monoclonal gammopathy of unknown significance or in nonmyeloma hematologic malignancies. In coculture, myeloma cell lines stimulate expression of TRANCE and inhibit expression of OPG by stromal cells. Osteoclastogenesis, the functional consequence of increased TRANCE expression, is counteracted by addition of a recombinant TRANCE inhibitor, RANK-Fc, to marrow/myeloma cocultures. Myeloma-stroma interaction also has been postulated to support progression of the malignant clone. In the SCID-hu murine model of human myeloma, administration of RANK-Fc both prevents myeloma-induced bone destruction and interferes with myeloma progression. Our data identify TRANCE and OPG as key cytokines whose deregulation promotes bone destruction and supports myeloma growth.
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PMID:Multiple myeloma disrupts the TRANCE/ osteoprotegerin cytokine axis to trigger bone destruction and promote tumor progression. 1156 86

Osteoprotegerin (OPG), the neutralizing decoy receptor for the osteoclast activator RANK ligand, was measured in serum taken from patients with multiple myeloma at the time of diagnosis. Median OPG was lower in the patients with myeloma (7.4 ng/mL; range, 2.6-80; n = 225) than in healthy age- and sex-matched controls (9.0 ng/mL; range 5.1-130; n = 40; P =.02). Importantly, OPG levels were associated with degree of radiographically assessed skeletal destruction (P =.01). The median OPG level in patients lacking osteolytic lesions was 9.1 ng/mL, as compared with 7.6 ng/mL and 7.0 ng/mL, respectively, in patients with minor or advanced osteolytic disease. Furthermore, OPG levels were associated with World Health Organization performance status (P =.003) and correlated to serum levels of carboxy-terminal propeptide of type I procollagen (PICP; P <.001) but not with clinical stage or survival. These findings suggest impaired OPG function in myeloma and give a rationale for OPG as a therapeutic agent against myeloma bone disease.
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PMID:Serum osteoprotegerin levels are reduced in patients with multiple myeloma with lytic bone disease. 1156 16

Multiple myeloma is a B-cell malignancy characterized by the accumulation of plasma cells in the bone marrow and the development of osteolytic bone disease. The present study demonstrates that myeloma cells express the critical osteoclastogenic factor RANKL (the ligand for receptor activator of NF-kappa B). Injection of 5T2MM myeloma cells into C57BL/KaLwRij mice resulted in the development of bone disease characterized by a significant decrease in cancellous bone volume in the tibial and femoral metaphyses, an increase in osteoclast formation, and radiologic evidence of osteolytic bone lesions. Dual-energy x-ray absorptiometry demonstrated a decrease in bone mineral density (BMD) at each of these sites. Treatment of mice with established myeloma with recombinant osteoprotegerin (OPG) protein, the soluble decoy receptor for RANKL, prevented the development of lytic bone lesions. OPG treatment was associated with preservation of cancellous bone volume and inhibition of osteoclast formation. OPG also promoted an increase in femoral, tibial, and vertebral BMD. These data suggest that the RANKL/RANK/OPG system may play a critical role in the development of osteolytic bone disease in multiple myeloma and that targeting this system may have therapeutic potential.
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PMID:Osteoprotegerin inhibits the development of osteolytic bone disease in multiple myeloma. 1206 87

The new members of the tumour necrosis factor (TNF) receptor-ligand family, receptor activator of nuclear factor-kappaB ligand (RANKL) and its receptor RANK, play a crucial role in osteoclast differentiation and activation. An increased expression of RANKL and/or RANK may be involved in the excessive bone resorption observed in multiple myeloma (MM). We used immunohistochemistry to study RANK and RANKL expression in bone marrow (BM) biopsies obtained at diagnosis in 15 MM patients, six patients with monoclonal gammopathy of undetermined significance (MGUS) and 10 normal BM biopsies. Plasma cells were not labelled with anti-RANKL or anti-RANK antibodies. In all biopsies, RANKL was expressed in endosteal bone surface, around vessels and in cells characterized by cytoplasmic expansions. These last cells did not express CD45 and were vimentin positive, corresponding to bone marrow stromal cells. Numerous stromal cells expressed RANKL in MM and MGUS specimens, with a greater expression in MM than in MGUS. Very few cells were stained with anti-RANKL in normal BM specimens. With the anti-RANK antibody, small mononuclear cells in the bone microenvironment were positive and were identified as erythroblast cells. In conclusion, we showed that RANKL was expressed in reticular stromal cells, with a greater intensity in myeloma specimens. These results suggest that RANKL overexpressed by bone marrow stromal cells may contribute to the high rate of bone resorption observed in MM.
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PMID:RANK (receptor activator of nuclear factor-kappaB) and RANKL expression in multiple myeloma. 1191 37

Myelomatous bone disease affects about 90% patients with multiple myeloma and solitary myeloma as well. In initial stage it is manifested as osteopenia with osteoporosis or osteolytic foci, pathologic fractures followed by neurologic complications. Ethiopathogenitically a role is played by cytokine interactions with local chemokines produced by myeloma cells and activated stromal and hemopoietic cells (osteoblasts, monocytes, macrophages) resp. From the TNF-alpha family glycoprotein complexes are liberated (RANK-L), which support activation and proliferation or are inhibitory (osteoprotegerins). Similarly in the family TGF-beta several izotypes of antiinflammatory cytokines are known (the most important is TGF-beta 1 and the morphogenetic protein-2), which have a fibrotizing effect in bones, because the produced osteoid is insufficiently mineralized. The effect is a pathologic remodelation of the skeleton. In the diagnosis of multiple myeloma the immunological knowledge is used in the initial diagnosis (immunophenotypization, follow up of TNF-alpha, TGF-beta 1, IL-1, IL-6 etc). Important are also biochemistry values of increased osteoresorption (changes of calcium, parathormone, excretion of collagen fission products, osteocalcin, the bone alkaline phosphatase). In the following part the authors inform about favourable results of long-term treatment with bisphosphonates (Bonefos, Ibandronate) in combination with anti-tumor chemotherapy in 364 patients. During a 15 years observation period median survival of 94 months with a 35% probability of 10 year survival was achieved with a significant decrease of bone complications in 58% compared to 14% in the placebo group.
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PMID:[Bone changes in multiple myeloma--current etiopathogenic, diagnostic and therapeutic aspects]. 1219 8

The major clinical manifestations of multiple myeloma are related to the loss of bone. This bone loss often leads to pathologic fractures, spinal cord compression, hypercalcemia, and bone pain. This article reviews the cytokine network involved in myeloma bone disease; describes the signaling cascade involved in osteoclastogenesis and mechanisms of action of novel therapeutic options for myeloma bone disease such as osteoprotegerin, RANK human immunoglobulin fusion protein, the proteasome inhibitor PS-341, and bisphosphonates; and summarizes the latest clinical trial results using oral and intravenous bisphosphonates for bone disease in multiple myeloma.
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PMID:Advances in the biology and treatment of myeloma bone disease. 1252 Apr 79

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