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)

Although urinary measurements of collagen degradation provide valid estimates of bone resorption, their clinical application is hampered by pronounced analytical and biological variability. Therefore, immunoassays for the determination of such parameters in serum have been developed. In this study, we assessed the performance of three new serum markers of bone turnover, i.e., C-terminal and N-terminal telopeptides of type I collagen (S-CTX and S-NTX) and bone sialoprotein. Results were compared with urinary total pyridinoline, total deoxypyridinoline, and urinary C-terminal telopeptides of type I collagen (U-CTX) and urinary N-terminal telopeptides of type I collagen (U-NTX). The study population included healthy men (n = 27), premenopausal (n = 30) and postmenopausal (n = 31) women, patients with hepatic dysfunction (HF, n = 24), renal failure (RF, n = 30), breast cancer without (BC-, n = 24) and with (BC+, n = 30) bone metastases, primary vertebral osteoporosis (OPO, n = 27), primary hyperparathyroidism (PHPT, n = 16), active Paget's disease of bone (n = 18), multiple myeloma (MM, n = 18), and patients with hypercalcemia of malignancy before and after treatment with pamidronate (HOM, n = 28). Changes in urinary and serum markers were similar in most metabolic bone diseases. However, differentiation between healthy controls and OPO, or PHPT, was improved by the serum markers. In MM, all serum and urinary markers were elevated (p < 0. 05 vs. controls). In BC+, skeletal involvement was reflected by significant increments in all indices (p < 0.01 vs. BC-), except U-CTX and S-CTX. In HOM, pamidronate-induced changes in biomarkers were most pronounced for U-CTX and S-CTX and S-NTX. HF and RF were associated with elevated levels of all serum markers (p < 0.05 vs. controls). In conclusion, measurements in serum reflect bone resorption to the same extent as the urinary indices. Since serum markers circumvent some of the limitations of urinary measurements, their use potentially improves the assessment of skeletal disorders.
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PMID:Novel serum markers of bone resorption: clinical assessment and comparison with established urinary indices. 1032 May 28

Bisphosphonates (BPs) used as inhibitors of bone resorption all contain two phosphonate groups attached to a single carbon atom, forming a "P-C-P" structure. The bisphosphonates are therefore stable analogues of naturally occuring pyrophosphate-containing compounds, which now helps to explain their intracellular as well as their extracellular modes of action. Bisphosphonates adsorb to bone mineral and inhibit bone resorption. The mode of action of bisphosphonates was originally ascribed to physico-chemical effects on hydroxyapatite crystals, but it has gradually become clear that cellular effects must also be involved. The marked structure-activity relationships observed among more complex compounds indicate that the pharmacophore required for maximal activity not only depends upon the bisphosphonate moiety but also on key features, e.g., nitrogen substitution in alkyl or heterocyclic side chains. Several bisphosphonates (e.g., etidronate, clodronate, pamidronate, alendronate, tiludronate, risedronate, and ibandronate) are established as effective treatments in clinical disorders such as Paget's disease of bone, myeloma, and bone metastases. Bisphosphonates are also now well established as successful antiresorptive agents for the prevention and treatment of osteoporosis. In particular, etidronate and alendronate are approved as therapies in many countries, and both can increase bone mass and produce a reduction in fracture rates to approximately half of control rates at the spine, hip, and other sites in postmenopausal women. In addition to inhibition of osteoclasts, the ability of bisphosphonates to reduce the activation frequency and birth rates of new bone remodeling units, and possibly to enhance osteon mineralisation, may also contribute to the reduction in fractures. The clinical pharmacology of bisphosphonates is characterized by low intestinal absorption, but highly selective localization and retention in bone. Significant side effects are minimal. Current issues with bisphosphonates include the introduction of new compounds, the choice of therapeutic regimen (e.g., the use of intermittent dosing rather than continuous), intravenous vs. oral therapy, the optimal duration of therapy, the combination with other drugs, and extension of their use to other conditions, including steroid-associated osteoporosis, male osteoporosis, arthritis, and osteopenic disorders in childhood. Bisphosphonates inhibit bone resorption by being selectively taken up and adsorbed to mineral surfaces in bone, where they interfere with the action of osteoclasts. It is likely that bisphosphonates are internalized by osteoclasts and interfere with specific biochemical processes and induce apoptosis. The molecular mechanisms by which these effects are brought about are becoming clearer. Recent studies show that bisphosphonates can be classified into at least two groups with different modes of action. Bisphosphonates that closely resemble pyrophosphate (such as clodronate and etidronate) can be metabolically incorporated into nonhydrolysable analogues of ATP that may inhibit ATP-dependent intracellular enzymes. The more potent, nitrogen-containing bisphosphonates (such as pamidronate, alendronate, risedronate, and ibandronate) are not metabolized in this way but can inhibit enzymes of the mevalonate pathway, thereby preventing the biosynthesis of isoprenoid compounds that are essential for the posttranslational modification of small GTPases. The inhibition of protein prenylation and the disruption of the function of these key regulatory proteins explains the loss of osteoclast activity and induction of apoptosis. These different modes of action might account for subtle differences between compounds in terms of their clinical effects. In conclusion, bisphosphonates are now established as an important class of drugs for the treatment of bone diseases, and their mode of action is being unravelled. As a result, their full therapeutic potential is gradual
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PMID:Bisphosphonates: from the laboratory to the clinic and back again. 1042 31

Clinical disorders in which bone resorption is increased are very common and include Paget's disease of bone, osteoporosis, and the bone changes secondary to cancer, such as occur in myeloma and metastases from breast cancer. Clinical disorders of reduced bone resorption are less common and often have a genetic basis, e.g. in osteopetrosis, and in pycnodysostosis due to cathepsin K deficiency. Bone is metabolically active throughout life. After skeletal growth is complete, remodelling of both cortical and trabecular bone continues and results in an annual turnover of about 10% of the adult skeleton. The commonest disorder of bone resorption is osteoporosis, which affects one in three women over 50 years. Its pathophysiological basis includes genetic predisposition and subtle alterations in systemic and local hormones, coupled with environmental influences. Treatment depends mainly on drugs that inhibit bone resorption, either directly or indirectly. This includes bisphosphonates, oestrogens, synthetic oestrogen-related compounds (SERMs--selective oestrogen receptor modulators) and calcitonin. The most widely used drugs for all disorders of increased bone resorption, including osteoporosis, are the bisphosphonates. Recent elucidation of their mode of action, together with the rapidly increasing knowledge of regulatory mechanisms in bone biology, offers many opportunities for the development of new therapeutic agents.
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PMID:Clinical disorders of bone resorption. 1127 85

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

Bisphosphonates are the most potent class of antiresorpitve drugs used in the treatment of bone diseases with enhanced resorption, like malignant osteolysis, osteoporosis and Paget's disease. Multiple myeloma is commonly associated with skeletal morbidity, including osteolysis, bone fractures, pain and hypercalcemia. These clinical complications result from increased osteoclast number and function which is due to release of osteoclast-stimulating factors by myeloma cells and the tumoral environment. By inhibition of osteoclast activity and inducing cell apoptosis, bisphosphonates can prevent development of bone destruction in myeloma patients. This article reviews efficacy of bisphosphonates in reducing skeletal events in patients with multiple myeloma and several in vitro studies which have shown that aminobisphosphonates may act as antimyeloma agents.
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PMID:[Bisphosphonates in the treatment of multiple myeloma]. 1210 45

Bisphosphonates (BPs), antiresorptive agents, have been established as first line drugs for treatment of osteoporosis and widely used all over the worlds. In Japan alendronate and risedronate, newer generation of BPs have been developed according to a evidence-based guideline and approved for clinical use in 2001 and in 2002, respectively. Although these BPs have been shown to have antifractures efficacy, great efforts have been made to explore convenient administration routes and schedules of BPs for individual patients. On the other hand, some of BPs are indicated for abnormal bone and calcium metabolism other than osteoporosis, including Paget's disease of bone, hypercalcemia associated with malignancy. Currently, extended indications of BPs are under development to the treatments of metastatic bone diseases, such as breast cancer, multiple myeloma, and rheumatoid arthritis. Since etidronate, first generation of BP also have the inhibitory effects on mineralization and hydroxyapatite crystal formation, application of this agent to ectopic ossification and calcification are very promising and under investigation.
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PMID:[Development of bisphosphonates]. 1263 11

Zoledronic acid (Zometa) is the most recent addition to the clinically available bisphosphonates. Clinical benefits in metabolic, as well as cancer-related bone disease have been observed. In addition to its profound antiosteoclast effects, it has demonstrated anticancer effects in preclinical models. Zoledronic acid has been evaluated in randomized, double-blind clinical trials of osteoporosis, Paget's disease of bone, and metastatic, osteolytic and osteoblastic bone disease. Antiosteoclast activity has been demonstrated by reductions in the bone breakdown products N-telopeptide, C-telopeptide and deoxypyridinoline. Bone mineral density, measured by dual energy x-ray absorptometry, is increased with administration of zoledronic acid in postmenopausal osteoporosis. Clinical benefit in cancer includes improvement in bone pain, reductions in skeletal events and delay in time-to-first-skeletal-events. These zoledronic acid treatment benefits have been demonstrated in patients with multiple myeloma, breast, prostate and lung cancer, and other solid tumors.
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PMID:Zoledronic acid (Zometa) use in bone disease. 1272 75

Gallium nitrate has been shown to be an effective treatment for patients with cancer-related hypercalcemia. Clinical studies have also suggested the drug may have considerably broader use in other diseases associated with accelerated bone loss including multiple myeloma, bone metastases, Paget's disease, and osteoporosis. The actions of gallium nitrate on bone are quite distinct from those of bisphosphonates. Preclinical studies show that gallium preferentially accumulates in trace amounts in metabolically active regions of bone. When present, gallium favorably alters the mineral properties to enhance hydroxyapatite crystallization and reduce mineral solubility. The drug also acts on the cellular components of bone to reduce bone resorption by decreasing acid secretion by osteoclasts. This effect appears to be mediated by inhibition of the ATPase-dependent proton pump of the osteoclast's ruffled membrane. Gallium does not inhibit the development or recruitment of osteoclasts to bone tissue, unlike many bisphosphonates that may induce osteoclast apoptosis. Together, these pharmacologic actions may yield a skeletal system with increased calcium and phosphate content and improved biomechanical strength. Gallium nitrate has potent antiresorptive effects on bone that can be achieved at considerably lower doses than are currently used for cancer-related hypercalcemia. Parenteral and oral formulations of gallium appear to have high activity in bone resorptive disorders, and thus development should be vigorously pursued in these diseases.
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PMID:The effects of gallium nitrate on bone resorption. 1277 54

The rate of calcification of new bone (accretion rate) was measured by a radioisotope technique in 20 patients with carcinoma of the breast, 14 patients with multiple myelomatosis, five patients with Paget's disease of bone, and in six patients with solitary, non-osseous tumours. The rate of bone destruction was assessed in these patients by the measurement of the rate of urinary calcium excretion. In the patients with carcinoma of the breast and bone metastases there was a marked increase both in the accretion rate and in the urinary calcium excretion suggesting an osteoblastic response to bone destruction. An osteoblastic response was also present in the patients with multiple myelomatosis but was not correlated with the urinary calcium excretion. In patients with Paget's disease of bone, high values of accretion rate were found indicating very active new bone formation.
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PMID:SOME ASPECTS OF CALCIUM METABOLISM IN MALIGNANT DISEASE OF BONE. 1424 7

Bisphosphonates are now well established as successful agents for the prevention and treatment of postmenopausal osteoporosis, corticosteroid-induced bone loss and Paget's disease. Bisphosphonates have also recently become important in the management of cancer-induced bone disease, and they now have a widely recognized role for patients with multiple myeloma and bone metastases secondary to breast cancer and prostate cancer. Recent studies suggest that, besides the strong antiosteoclastic activity, the efficacy of such compounds in the oncological setting could also be due also to direct antitumor effect, exerted at different levels. Here, after a brief analysis of the chemical structure, we will review the antineoplastic and biological properties of bisphosphonates. We will start from well estabilished mechanisms of action and go on to discuss the latest evidence and hypotheses. In particular, we will review the antiresorptive properties in malignant osteolysis and the recent evidence of a direct antitumor effect. Furthermore, this review will analyze the influence of bisphosphonates on cancer growth factor release, their effect on cancer cell adhesion, invasion and viability, the proapoptotic potential on cancer cells, the antiangiogenic effect, and, finally, the immunomodulating properties of bisphosphonates on the gammadelta T cell population.
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PMID:The antineoplastic role of bisphosphonates: from basic research to clinical evidence. 1450 45


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