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)

For understanding of the pathophysiology of multiple myeloma, features of the malignant clone and changes induced by the bone-marrow microenvironment are equally important. Multiple myeloma plasma cells, which originate from postfollicular B cells, are characterised by complex chromosomal aberrations. Among the earliest genetic events are translocations of the immunoglobulin heavy-chain gene locus, which leads to dysregulation of oncogenes at translocation partner regions (cyclin D1 at 11q13, FGFR3/MMSET at 4p16.3, c-MAF at 16q23, and cyclin D3 at 6p21), and deletions of 13q14, the site of a putative tumour suppressor gene, which is an adverse prognostic indicator. Additional molecular events include epigenetic changes and activation of oncogenes (mutations of N-RAS and K-RAS, and changes in c-MYC), which are usually associated with disease progression. Bone-marrow stromal cells support growth and survival of multiple myeloma cells via various cytokines. Osteoclast activity factors (in particular MIP1alpha) and imbalances between RANKL and osteoprotegerin are major factors for the development of myeloma bone disease. Further characterisation of crucial events in the development of monoclonal gammopathies by novel techniques such as global gene expression profiling will contribute to a molecular classification of multiple myeloma and foster future therapeutic approaches.
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PMID:New insights into the pathophysiology of multiple myeloma. 1296 77

Multiple myeloma (MM) is an incurable B-cell malignancy able to mediate massive destruction of the axial skeleton. The aim of this study was to examine the involvement of the tumor necrosis factor-ligand family member, receptor activator of nuclear factor-kappaB ligand (RANKL), and its naturally occurring antagonist, osteoprotegerin (OPG), in MM biology. Using flow cytometry and two independent anti-RANKL antibodies, we demonstrate RANKL expression in CD38(+++)CD45(+) and CD38(+++)CD45(-) myeloma plasma cell (MPC) subpopulations derived from patients with osteolytic MM. In addition, highly purified subpopulations of MPC express mRNA for both transmembrane and soluble RANKL isoforms but lack expression of OPG mRNA and protein. We also show that RANKL expressed by MPC is functional as in vitro coculture of CD38(+++)CD45(+) and CD38(+++)CD45(-) MPC subpopulations with peripheral blood mononuclear cells resulted in the formation of multinucleate, tartrate-resistant acid phosphatase-positive osteoclasts-like cells capable of forming typical resorption pits. Furthermore, high expression of membrane-associated RANKL by CD38(+++) MPC correlated with the presence of multiple radiological bone lesions in individuals with MM. Together, our data strongly suggest that RANKL expression by MPC confers on them the ability to participate directly in the formation of osteoclast in vivo and extends our knowledge of the involvement of RANKL and OPG in the osteolysis characteristic of this disease.
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PMID:Receptor activator of nuclear factor-kappaB ligand expression by human myeloma cells mediates osteoclast formation in vitro and correlates with bone destruction in vivo. 1474 98

Multiple myeloma (MM) is a plasma cell malignancy localized in the bone marrow (BM) and characterized by a high capacity for bone destruction. Almost all patients with MM have early osteolytic lesions, which result mainly from increased bone resorption related to stimulation of osteoclast recruitment and activity in the immediate vicinity of myeloma cells. The recent discovery of Osteoprotegerin (OPG) and the subsequent identification of its ligand RANKL have provided new insights in the regulation of osteoclastogenesis. The ratio OPG/RANKL is critical for the regulation of bone remodeling maintaining the balance between osteoblastic and osteoclastic activity. This review summarizes the new concept that myeloma cells induce in bone environment an imbalance in the OPG/RANKL system responsible for osteolysis observed in patients. Indeed, myeloma cells increase in bone environment the expression of the potent osteoclastogenic factor RANKL and decrease the osteoprotective factor OPG production. Biological mechanisms involved in these processes are discussed. Furthermore, the chemokines MIP-1alpha and MIP-1beta belonging to the RANTES family are potent osteoclastogenic factors produced by myeloma cells and participate in myeloma-associated bone disease. These data open new avenues for the treatment of bone disease in MM and highlight the promising therapeutical interest of RANKL inhibitors (OPG and RANK-Fc) and MIP-1 inhibitors in the management of myeloma-associated osteolysis, besides bisphosphonates.
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PMID:New insights in myeloma-induced osteolysis. 1456 45

We have been using the B9/BM1 murine bone marrow metastasis model to study the function of adhesion molecules in the cell-cell interactions and transendothelial migration, necessary for tumor metastasis. The cell surface phenotype of these cells, which colonize vertebral and femoral marrow after intravenous injection, shows great similarity to that of human myeloma cells. In the present study, we investigated the interaction between B9/BM1 cells and osteoclasts, which likely support tumor metastasis in bone marrow. We found that co-culturing B9/BM1 cells and bone marrow-derived endothelial cells (BMECs) in the presence of vitamin D3 and M-CSF promoted differentiation of primary osteoclast progenitors to osteoclasts (detected by TRAP staining), and that this effect was blocked when BMECs were separated from the other cells by a porous polycarbonate membrane. Flow cytometry analysis showed that BMECs expressed RANKL (receptor activator of NF-kappaB ligand) protein on their surface, and that this expression was up-regulated by co-culture with B9/BM1 cells. Accordingly, RT-PCR showed expression of RANKL mRNA also to be up-regulated in BMECs co-cultured with B9/BM1 cells. Addition of OPG (osteoprotegerin, a decoy RANKL receptor) to the co-culture system completely blocked osteoclast induction, as did addition of anti-CD44 antibody. Furthermore, intravenous injection of B9/BM1 cells substantially increased the numbers of TRAP-positive osteoclasts detected in mice in vivo. Taken together, these findings suggest that B9/BM1 myeloma cells act via CD44 to stimulate RANKL expression on BMECs, which in turn physically interact with osteoclast progenitors to promote their differentiation to osteoclasts and metastasis in bone marrow.
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PMID:Bone marrow metastatic myeloma cells promote osteoclastogenesis through RANKL on endothelial cells. 1466 95

The physiological maintenance of bone mass is ensured by bone tissue renewal, allowing old bone tissue to be replaced by an equivalent mass of bone matrix. After mechanical or hormonal stress activation, a phase of resorption by osteoclasts occurs, followed by a phase of bone formation by osteoblasts. Among the multiple factors involved in osteoblastic differentiation are the following: Cbfa1 (transcription factor); low density lipoprotein receptor-related protein-5 (LRP-5), a membrane lipoprotein receptor and protein Wnt co-receptor, which plays an important role during development. It is possible that osteoblastic proliferation and differentiation are regulated by distinct pathways. Osteoclastic differentiation is also regulated by numerous factors: osteoprotegerin (OPG); RANK-L (receptor activator of nuclear factor kappa B ligand, a transmembrane protein related to tumour necrosis factor [TNF], the binding of which to its RANK receptor induces osteoclastic differentiation); and soluble TNF receptors. Local regulation of the OPG/RANK-L ratio could explain postmenopausal loss of bone mass. OPG could play a major role in myeloma and Paget disease. Osteolysis together with bone metastasis could also be related to the local production of RANK-L. OPG decreases osteolysis and offers an interesting therapeutic perspective for the treatment of osteoporosis and other diseases associated with bone hyper-resorption.
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PMID:[Bone remodeling]. 1468 85

Paroxysmal nocturnal hemoglobinuria (PNH) clones deficient in glycosylphosphatidylinositol-anchored molecules, including CD55 and CD59, have been previously described in patients with multiple myeloma (MM). The aim of this study was to investigate the possible association between existence of the PNH phenotype and myeloma bone disease. Forty-three patients with newly diagnosed MM were the subjects of the study. Radiographic evaluation of the skeleton was performed in all patients at diagnosis. The following biochemical markers were measured: bone resorption markers (tartrate-resistant acid phosphatase isoform 5b [TRACP-5b]and N-terminal cross-linking telopeptide of type-I collagen [NTX]), bone formation markers (bone alkaline phosphatase [bALP] and osteocalcin [OC]), osteoprotegerin (OPG), soluble receptor activator of nuclear factor KB ligand (sRANKL), and interleukin 6 (IL-6). Detection of CD55- and/or CD59-deficient red cell populations was performed after diagnosis. Patients with MM had elevated mean baseline NTX, TRACP-5b, sRANKL, and IL-6 levels compared with controls, whereas the mean values of bALP, OC, and OPG were significantly decreased. Four patients had no osteolytic lesions, whereas 8 patients had 1 to 3 lytic lesions, and 31 patients had more than 3 lytic lesions and/or pathologic fractures in the skeletal survey. CD55- and/or CD59-deficient red cell populations were observed in 56% of patients with MM. There was a strong correlation between the presence of PNH-like erythrocytes and increased bone resorption, as measured by NTX, TRACP-5b, and sRANKL/OPG ratio (P < .03, P < .02, and P < .02, respectively). There was also a significant correlation between PNH phenotype and severe bone disease (P < .02). These results suggest that there is a possible link between PNH phenotype and increased osteoclastic activity in MM owing to a potential effect of myeloma microenvironment on a preexisting PNH clone. Further studies are required for clarifying this phenomenon and investigating possible mechanisms of this unusual association.
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PMID:Unusual association between increased bone resorption and presence of paroxysmal nocturnal hemoglobinuria phenotype in multiple myeloma. 1468 93

The osteoprotegerin (OPG)/receptor activator of NF-kappa B ligand (RANKL) system has a major role in the pathogenesis of bone disease in myeloma (MM). The effect of autologous stem cell transplantation (ASCT) on bone turnover in MM was evaluated in 51 patients (35M/16F). Markers of bone resorption (NTX, TRACP-5b), bone formation (bone-alkaline phosphatase (bALP), osteocalcin), OPG and sRANKL were measured pre- and every month post-ASCT. The median follow-up period was 12 months. Four patients were transplanted in CR, 44 were transplanted in PR and three patients had progressive/resistant disease. All patients received bisphosphonates both pre- and post-ASCT. At baseline the majority of patients had increased NTX, TRACP-5b levels, and sRANKL/OPG ratio, while markers of bone formation were strongly suppressed. ASCT produced a significant reduction of sRANKL/OPG ratio, with a concomitant decrease of NTX, and TRACP-5b levels, starting the second month post-ASCT. Bone formation markers, osteocalcin and bALP, started to increase after the 9th and 11th month post-ASCT, respectively, while the increase of OPG preceded this. These results provide biochemical evidence that ASCT normalizes the abnormal bone resorption in MM patients possibly through the decrease of RANKL/OPG ratio, while bone formation requires a longer period to return to normal.
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PMID:Autologous stem cell transplantation normalizes abnormal bone remodeling and sRANKL/osteoprotegerin ratio in patients with multiple myeloma. 1521 75

Summary The ratio of osteoprotegerin [OPG, tumour necrosis factor receptor superfamily, member 11b (TNFRSF11B)] to receptor activator of nuclear factor kappaB ligand [RANKL, tumour necrosis factor (ligand) superfamily, member 11 (TNFSF11)] in bone is critical for the regulation of bone remodelling. Myeloma cells can home to bone, triggering increased RANKL and decreased OPG expression by stromal cells, leading to osteolysis. Whether myeloma cells contribute directly to the pool of RANKL or OPG in bone has been contentious. Here we provide evidence of RANKL expression by reverse transcription polymerase chain reaction and in situ hybridization, demonstrating transcripts encoding both the membrane-bound and secreted forms of RANKL in five human multiple myeloma cell lines (LP-1, NCI-H929, OPM-2, RPMI8226, U266) and myeloma cells purified from bone marrow aspirates of myeloma patients. We demonstrated that RANKL encoding mRNAs are translated to protein by antibody detection of RANKL. In vitro assays showed that myeloma cells induced bone marrow derived mononuclear cells to differentiate into adherent tartrate-resistant acid phosphatase positive multinucleated cells, indicative of the formation of functional osteoclasts. This differentiation could also be achieved with passaged myeloma media alone, implicating secreted products. Finally, we provide evidence that the differentiation observed is at least in part the result of myeloma cell expression of RANKL. We therefore conclude that myeloma cells can directly contribute to the pool of RANKL in bone.
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PMID:Myeloma cells can directly contribute to the pool of RANKL in bone bypassing the classic stromal and osteoblast pathway of osteoclast stimulation. 1523 39

Multiple myeloma is associated with the development of a devastating bone disease mediated by increased osteoclastic activity. The ligand for receptor activator of nuclear factor-kappaB (RANKL) plays a critical role in normal osteoclast biology and is abnormally regulated in myeloma. Targeting this system with recombinant decoy receptor, osteoprotegerin, or soluble forms of the receptor activator of nuclear factor-kappaB is able to prevent myeloma bone disease in pre-clinical models. Intriguingly, inhibiting osteoclast formation and bone resorption, and altering the bone marrow microenvironment, results in an indirect anti-myeloma effect.
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PMID:Evidence of a role for RANKL in the development of myeloma bone disease. 1525 Nov 26

Bone resorption by osteoclasts is coupled with bone formation by osteoblasts, and this balanced process continuously remodels and adapts the skeleton. The receptor activator of nuclear factor kappaB ligand (RANKL) has been identified as an essential cytokine for the formation and activation of osteoclasts. The effects of RANKL are physiologically counterbalanced by the decoy receptor osteoprotegerin (OPG). Estrogen deficiency, glucocorticoid exposure, T-cell activation (eg, rheumatoid arthritis), and skeletal malignancies (eg, myeloma, metastases) enhance the ratio of RANKL to OPG and, thus, promote osteoclastogenesis, accelerate bone resorption, and induce bone loss. Moreover, alterations of the OPG/RANKL/RANK system have been implicated in vascular diseases. RANKL blockade (using OPG or RANK fusion proteins or RANKL antibodies) has prevented bone loss caused by osteoporosis, chronic inflammatory disorders, and malignant tumors in animal models and may emerge as a therapy in humans based on studies in postmenopausal osteoporosis, myeloma bone disease, and osteolytic metastases. This review summarizes the clinical implications of the OPG/RANKL/RANK system for bone and vascular diseases.
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PMID:Clinical implications of the osteoprotegerin/RANKL/RANK system for bone and vascular diseases. 1528 Mar 47


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