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)

Receptor activator of NF-kappaB ligand (RANKL), its receptor RANK, and osteoprotegerin (OPG), the physiological inhibitor of RANKL, were discovered using a genomics-based approach. Bone loss is dependent on RANKL, the primary mediator of osteoclast formation, function, and survival. The study of the RANK/RANKL/OPG axis in animal models has firmly established the central importance of this pathway in bone mass regulation and provided the initial rationale for the design of a mechanism-based targeted approach to inhibit RANKL in pathologic bone loss settings, including cancer-induced bone disease. Denosumab (AMG 162), a fully human monoclonal antibody that can bind and inhibit human RANKL in a way that mimics the natural bone-protecting actions of OPG, is currently in development. A phase 1 clinical trial in patients with multiple myeloma or breast carcinoma with bone metastases showed that a single subcutaneous injection of denosumab caused rapid and sustained suppression of bone turnover markers and was well tolerated. Larger trials are underway to investigate the effect of denosumab for the treatment of cancer-induced bone disease and other bone loss disorders.
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PMID:[Monoclonal antibody targeting RANKL as a therapy for cancer-induced bone diseases]. 1658 14

Osteolytic bone disease is a major clinical feature of multiple myeloma (MM). Mechanisms of bone destruction are related to increased osteoclastic activity, which is not accompanied by a comparable increase in bone formation, as osteoblasts are functionally exhausted. Thus the lesions rarely heal and bone scans are often negative in myeloma patients with extensive lytic lesions, offering very little in the follow-up of bone disease. Biochemical markers of bone resorption, such as N- and C-terminal cross-linking telopeptide of type I collagen (NTX, CTX/ICTP, respectively), tartrate resistant acid phosphatase isoform-5b, bone formation (bone-specific alkaline phosphatase [BAP]), and osteocalcin provide useful information on bone dynamics. Several studies have shown that NTX, CTX, and ICTP are elevated in myeloma patients, reflect the extent of bone disease, and correlate with survival. Furthermore, they are useful in monitoring bone destruction during antimyeloma or bisphosphonate treatment. Markers of bone formation have produced conflicting results in trials. However, BAP correlates with bone pain, lytic lesions, and fractures in quite a few studies of MM. Novel markers, such as bone sialoprotein, receptor activator of nuclear factor-kappa B ligand (RANKL), osteoprotegerin, osteopontin, dickkopf-1, and soluble Frizzle-related protein-2 have been found of value in assessing bone lytic disease in MM, but their promising results must be confirmed in large trials. In conclusion, although no marker provides optimal analysis of MM or of MM treatments, combinations of markers have at times helped in assessing MM stages and lytic bone disease and in monitoring specific treatment modalities. The need for further research in this field is clear.
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PMID:Biochemical markers of bone metabolism in multiple myeloma. 1668 Aug 33

The members of the OPG/RANK/RANKL (osteoprotegerin/receptor activator of nuclear factor kappaB/RANK ligand) triad are involved in various osteolytic pathologies such as bone tumors. Although many studies described the use of OPG during the treatment of bone diseases, its bioavailability and the mechanism by which the cells control the extracellular OPG remains blurred. The present work uses a strongly RANKL expressing cellular model to assess the becoming and the bioavailability of exogenous OPG in the context of its interactions with RANKL. The human kidney cell line 293, which initially expresses neither OPG nor RANKL, was stably transfected by the full length of mouse transmembranous form of RANKL (293RL). When OPG is incubated with 293RL cells, the extracellular concentration of OPG was strongly decreased in a time-dependent manner. The OPG disappearance was not inhibited by the addition of several proteases inhibitors, thus excluding any extracellular protease degradation. Contrary to previous results obtained on myeloma cells, which strongly express syndecan-1, the OPG disappearance was unaffected by the use of an antibody against syndecan-1. However, this event was abolished by an antibody against RANKL. These results, not necessarily conflicting, could be in relation with the expression level of the receptors in the two cellular models. In this context, an internalization process was put forward. Confocal microscopy demonstrated via the clathrin pathway an internalization of OPG mediated by RANKL. After being internalized, OPG was then degraded by the proteasome and the lysosome. A similar internalization phenomenon was also observed in osteoblast cells expressing physiologically RANKL, thus validating our data observed on 293RL cells. Western blotting analysis revealed that the half-life of RANKL was greatly reduced in the presence of OPG, pointing out that OPG binding to RANKL induces an enhancement of the ligand internalization. By the light of these results, the inhibitory effect of OPG on bone resorption can be explained not only by a decoy receptor function, competitor inhibitor of the RANK/RANKL binding, but also by the modulation of the RANKL half-life induced by OPG. Reciprocally, this modulation contributes to reduce the bioavailability of OPG.
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PMID:OPG/membranous--RANKL complex is internalized via the clathrin pathway before a lysosomal and a proteasomal degradation. 1675 Sep 45

Bone disease in multiple myeloma (MM) leads to progressive devastation of the skeleton and is the most severe cause of morbidity. Its pathogenetic mechanisms are not fully defined, though the current evidence points to hyperactivation of osteoclasts (OC) in presence of a major defect of bone repairing in erosion sites due to osteoblast (OB) impairment. Bone resorption, however, is promoted by early OB, namely stromal cells that respond to chronic stimulation by myeloma cells by enhancing marrow levels of RANKL and other osteoclastogenic factors and thus accelerating the maturation of OC progenitors. In myeloma bone disease (MBD), OBs are systematically defeated by a number of inhibiting effects induced by the malignant clone within the marrow microenvironment. Thus, MBD primarily affects the OB lineage, particularly in overt MM, where serum markers of osteoblastogenesis, such as osteocalcin and osteoprotegerin, are extremely low in contrast with their slight increase in inactive MM. These markers, in association with others of bone turnover (RANKL, MIP-1alpha, type I collagen telopeptides such as NTX and CTX) may be used in the clinical assessment of MBD as well as to monitor the efficacy of bisphosphonate in delaying the progressive skeletal destruction.
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PMID:Myeloma bone disease: pathogenetic mechanisms and clinical assessment. 1676 25

Bone disease, a hallmark of multiple myeloma occurs in the majority of the patients, is associated with bone pain, fractures, hypercalcemia and has major impacts on quality of life. Myeloma is characterized by a unique form of bone disease with osteolytic bone destruction that is not followed by reactive bone formation, resulting in extensive lytic lesions. This review will focus on the pathophysiology of osteoclast activation and osteoblast inhibition in multiple myeloma and on biochemical markers of bone turnover. Since osteolytic lesions do not rapidly heal in myeloma, X-rays cannot reflect the activity of bone disease during antimyeloma treatment. Activity in bone turnover does not parallel changes in monoclonal protein levels. Thus, there is a need for biochemical markers reflecting disease activity in bone. The utility, prognostic implications and limitations of classical and novel markers of bone remodeling (e.g. ICTP, NTx, TRACP-5b, osteoprotegerin, sRANKL) will be discussed in this overview.
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PMID:Bone markers in multiple myeloma. 1676 40

Multiple myeloma (MM) is a B-cell malignancy characterized by enhanced bone loss commonly associated with a diffuse osteopenia, focal lytic lesions, pathologic fractures, hypercalcemia, and bony pain. Bone destruction in MM results from asynchronous bone turnover wherein increased osteoclastic bone resorption is not accompanied by a comparable increase in bone formation. Recent characterization of osteoclast-activating factors (OAFs), receptor activator of nuclear factor-kappaB (RANK) ligand (RANKL)-osteoprotegerin-RANK system, and inhibitors of Wnt signaling have provided a better understanding of myeloma bone disease in molecular level. The development of minimally invasive surgical procedures such as kyphoplasty and vertebroplasty allows myeloma patients with vertebral compression fractures to have immediate improvement in quality of life and shorter hospital stays. Monthly intravenous infusion of either pamidronate or zoledronic acid have reduced the skeletal complications among MM patients and are now a mainstay of myeloma therapy. Orally administered bisphosphonates, in contrast, have shown little ability to slow the development of skeletal complications in these patients. Although pre-clinical studies suggest nitrogen-containing bisphosphonates have potent anti-tumor effects, clinical trials will be necessary, probably at higher doses given more slowly, to establish their possible anti-tumor effects clinically. As our understanding of the pathophysiology of myeloma bone disease continues to increase, new target therapies will continue to emerge offering new and more advanced options for the management of myeloma bone disease.
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PMID:Myeloma bone disease and treatment options. 1679 71

Multiple myeloma (MM) is characterized by accumulation of monoclonal plasma cells in the bone marrow and progression of lytic bone lesions. MM cells enhance bone resorption by triggering a coordinated increase in RANK ligand and decrease in osteoprotegerin in the bone marrow. Macrophage inflammatory protein (MIP)-1alpha and (MIP)-1beta are secreted by MM cells, and play a major role in the enhancement of bone resorption by MM cells. Furthermore, the growth and survival of MM cells are enhanced by contact with osteoclasts (OCs) suggesting the presence of a vicious cycle between OCs and MM cells. OCs also enhance angiogenesis in concert with MM cells largely through the cooperative actions of osteopontin from OCs and VEGF from MM cells. The angiogenic effect may further facilitate the vicious cycle between bone destruction and MM cell expansion. In addition, MM cells secrete soluble factor(s) to suppress bone formation. Secreted Frizzled-related protein (sFRP)-2, an inhibitor of Wingless type (Wnt) binding to Frizzled, is produced by most MM cells, and immunodepletion of sFRP-2 abrogates the inhibition of bone formation. Thus, MM cells enhance bone resorption and suppress bone formation to cause destructive bone lesions. Further elucidation of the mechanism of bone destruction by MM may lead to a novel therapeutic approach to prevent bone destruction and tumor growth.
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PMID:Bone destruction in multiple myeloma. 1683 32

Multiple myeloma (MM) is often associated with an increased osteoclast (OC) activity. Using an in vitro osteoclastogenesis model consisting of MM unstimulated and unfractionated peripheral blood mononuclear cells (PBMCs), we showed that T cells support OC formation and survival. Differently, in T cell-depleted MM PBMC cultures, exogenous macrophage-colony stimulating factor (M-CSF) and receptor activated of nuclear factor-kappaB ligand (RANKL) were necessary for osteoclastogenesis. We found RANKL, OPG, and TRAIL overexpression by fresh MM T cells. Despite high osteoprotegerin (OPG) levels, the persistence of osteoclastogenesis can be related to the formation of the OPG/TRAIL complex. Our results highlight that MM T cells support OC formation and survival, possibly involving OPG/TRAIL interaction.
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PMID:The role of OPG/TRAIL complex in multiple myeloma: the OPG/TRAIL complex in an in vitro osteoclastogenesis model derived from human multiple myeloma-bone disease. 1683 34

The cause of the polyneuropathy, organomegaly, endocrinopathy, monoclonal plasma cell disorder and skin changes (POEMS) syndrome is currently unknown, but increased levels of vascular endothelial growth factor (VEGF) appear to play a pathogenetic role. Osteosclerotic bone lesions are a characteristic finding in POEMS, but there are no data about the specific role of various molecules that control bone remodeling in patients with POEMS. Serum levels of angiogenic cytokines (VEGF, angiogenin, angiopoietin-2, and basic fibroblast growth factor) along with a series of bone remodeling indices (C-telopeptide of type I collagen, bone-alkaline phosphatase [bALP], osteocalcin [OC], soluble receptor activator of nuclear factor-kappaB ligand [RANKL], osteoprotegerin [OPG], and macrophage inflammatory protein-1alpha) were measured in 2 patients with POEMS before and after high-dose therapy (HDT) with autologous stem cell transplantation and in age- and sex-matched controls. Increased VEGF levels before HDT were reduced significantly after treatment, although levels of the other angiogenetic factors did not differ from that of controls and were less influenced by HDT. Serum RANKL levels were increased before HDT, whereas OPG levels were within the levels of healthy controls, resulting in an abnormal soluble RANKL to OPG ratio. Levels of bone resorption markers (C-telopeptide of type I collagen) were very low or undetectable before HDT, although bALP and OC levels were similar to that of controls. After HDT, soluble RANKL levels decreased, OPG remained rather stable, bone resorption markers increased to levels of normal individuals, bALP levels were rather unchanged, and OC levels increased. Decreasing VEGF levels parallel clinical improvement, and the restoration of normal bone metabolism follows HDT.
Clin Lymphoma Myeloma 2006 Jul
PMID:Angiogenetic factors and biochemical markers of bone metabolism in POEMS syndrome treated with high-dose therapy and autologous stem cell support. 1687 74

Histomorphometry and biochemical markers of bone turnover have shown that, although osteoclast activity is increased in multiple myeloma (MM), mostly through the receptor activator of nuclear factor-kappaB ligand/osteoprotegerin axis, the key element in vivo to determine the presence or absence of osteolytic lesions resides on the presence and activity of osteoblasts. The loss of bone observed in MM is the result of an uncoupling of bone formation and bone resorption. Bortezomib is a first-in-class proteasome inhibitor developed as an antineoplastic agent with marked activity in relapsed/refractory MM. Response to bortezomib has been related to a significant increase in alkaline phosphatase (ALP). Increased ALP in patients responding to bortezomib was associated with a parallel increase in bone-specific ALP and parathyroid hormone, suggesting that response to bortezomib in MM is closely associated with osteoblastic activation. Variation in markers of osteoblastic activation (such as ALP) have also predicted response and response duration in patients with myeloma treated with bortezomib (P < 0.0001). This clinical observation has been confirmed in an experimental mouse model for primary human myeloma. The consequences of increased bone anabolism on myeloma growth need to be closely evaluated in prospective trials.
Clin Lymphoma Myeloma 2006 Sep
PMID:Response to bortezomib and activation of osteoblasts in multiple myeloma. 1702 21


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