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: UNIPROT:Q86TM3 (cage)
29,987 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A syndrome of subacute respiratory distress, severe metabolic bone disease affecting the thoracic cage, and mild cholestasis occurred in 4 small preterm infants during the first three months of life and was associated with considerable morbidity. The early radiological features in the chest resembled thos of the Mikity-Wilson syndrome, with which the disorder may be confused. After spontaneous improvement in hepatic function 3 of the infants fully recovered. The fourth died of paralytic ileus. Various nutritional and absorptive abnormalities probably contribute to the pathogenesis of the bone disorder in this syndrome. The best prophylaxis might be to supplement the diet with 25-hydroxyvitamin D rather than native vitamin D.
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PMID:Rachitic respiratory distress in small preterm infants. 86 Aug 72

The pathophysiological mechanisms of hypercalcaemia were assessed in 50 rehydrated patients with cancer-associated hypercalcaemia. Surprisingly, renal tubular calcium reabsorption appeared to increase progressively as serum calcium rose, suggesting that the nomogram used for the calculation may have been inaccurate, in absolute terms, probably due to its failure to take account of the levels of urinary sodium excretion. There were significant differences in the mechanisms of hypercalcaemia in different patient subgroups, however, independent of differences in urinary sodium excretion. In those with few or no bone metastases, increased renal tubular calcium reabsorption was the principal cause of hypercalcaemia, often in association with increased bone resorption. These abnormalities were thought to reflect the renal and skeletal actions of a tumour-associated humoral mediator. The main cause of hypercalcaemia in those with extensive metastatic bone disease was increased bone resorption, with contributions from impairment of glomerular filtration rate and, to a minor extent, increased renal tubular calcium reabsorption. These abnormalities were thought to reflect a mainly local-osteolytic mechanism of hypercalcaemia with secondary impairment of GFR. Of all the biochemical variables assessed pre-treatment, the renal tubular component of hypercalcaemia correlated most strongly with post-treatment serum calcium values (r = 0.61, P less than 0.001). Because of their generally lower levels of renal tubular calcium reabsorption, patients with extensive skeletal metastases also had significantly lower post treatment calcium values than patients with few or no metastases (P less than 0.05). These data indicate that the pathophysiological mechanisms of hypercalcaemia are a major determinant of the calcium lowering response after antihypercalcaemic treatment. This should be taken into account during comparative studies of antihypercalcaemic therapy in patients with malignancy.
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PMID:Malignancy-associated hypercalcaemia: relationship between mechanisms of hypercalcaemia and response to antihypercalcaemic therapy. 297 9

We report a case of multicentric massive osteolysis. A 52-year-old woman presented with a three-year history of progressive deformities of the hands. She had osteolytic lesions of the metacarpals and metatarsals, and resorption of the terminal phalanges. During follow-up over four years osteolysis spread to affect the ribs, clavicles, mandible, and long bones. There was no family history of any bone disorder and renal function was normal. Death resulted from resorption of the rib cage and post-mortem studies failed to reveal the cause of the osteolysis.
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PMID:Idiopathic multicentric osteolysis with acro-osteolysis. A case report. 396 51

Normal skeletal integrity is maintained by physiological bone turnover through a coupled process of bone resorption, mediated by osteoclasts, followed by new bone formation, mediated by osteoblasts. Major features of the pathogenesis of cancer-associated skeletal destruction are enhanced osteoclast-mediated bone resorption and disruption of normal bone formation. In this article, the literature on the pathogenesis and clinical manifestations of metastatic bone disease is discussed. Animal and clinical trials investigating novel bone targeted agents, emphasizing the bisphosphonates, are critically assessed. The most frequent clinical manifestations of bone metastases are pain, fracture, immobility, spinal cord compression, and hypercalcemia. New treatments under study for patients with bone metastases include agents specifically targeted to the skeleton such as bone-seeking radioisotopes and bisphosphonates. Studies in animal models of metastatic bone disease show that these bisphosphonates are able to inhibit tumor-induced osteolysis and are potentially useful in this condition. Bisphosphonates have been investigated in several clinical trials of patients with skeletal metastases from breast cancer, prostate cancer, and multiple myeloma. Overall, the studies investigating bone targeted radioisotopes or bisphosphonates for the treatment of morbidity due to skeletal metastases have been inconclusive. An improved understanding of the pathogenesis of metastatic bone disease and preclinical studies with bisphosphonates suggest that these agents may have a role in the treatment of this disorder. Additional trials of new generation bisphosphonates, employing a rigorously controlled, randomized study design with adequate numbers of subjects, are needed to demonstrate the safety and efficacy of this class of agents in this setting.
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PMID:New bisphosphonates in the treatment of bone metastases. 824 77

This manuscript reviews the theories behind the propensity of prostate cancer to cause bone metastases and skeletal implications of the prostate cancer biology and treatment modalities. The escape of tumor cells from the primary tumor in the prostate to secondary tumor sites in the axial skeleton probably occurs before the primary tumor is detected. Several theories offer explanations for the observed proclivity of prostate tumors to selectively colonize the axial skeleton. The interaction between the tumor cells and cells that populate bone marrow, in particular osteoblasts and osteoclasts, is important for creating a 'fertile' environment where tumor cells can establish and grow. Prostate cancer cells are capable of producing growth factors that can affect both osteoblasts, resulting in osteoblastic bone formation, and osteoclasts, resulting in excessive bone resorption. In addition to the capability to progress from testosterone-dependent to testosterone-independent phenotype, the hallmark of metastatic prostate cancer is osteosclerosis similar to one induced experimentally in nude rats using CWR22 human prostate cancer cell line. Metastatic bone disease caused by excessive bone formation and bone resorption is the major cause of morbidity in patients with prostate cancer. The most common symptoms include pain, pathological fractures, spinal cord compression, cranial nerve palsies, bone marrow suppression and hypercalcemia. The introduction of prostate-specific antigen in clinical practice created a shift to where more prostate cancer patients with early disease receive androgen ablation treatment, which in return causes more bone loss and cancer-associated osteoporosis. Introduction of third generation bisphosphonates to treat skeletal consequences of malignancy further stressed the important interaction between the bone marrow stroma and cancer cells. Nevertheless, animal models and human prostate tumor cell lines that mimic all aspects of skeletal conditions in prostate cancer patients including osteoblastic bone response are needed to develop and screen for novel therapeutic and diagnostic modalities.
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PMID:Skeletal implications of prostate cancer. 1575 51

Patients harboring cancer and other tumors frequently exhibit such bone morbidity as metabolic bone diseases and bone metastases. Cancers produce and secrete cytokines and growth factors for their growth and survival. Cytokines are also produced by reacting immune systems. Those humoral factors, when produced in a sizable quantity, enter into the general circulation and become a causative principle for paraneoplastic syndrome. An example is parathyroid hormone-related protein (PTHrP) for humoral hypercalcemia of malignancy, and fibroblast growth factor 23 (FGF23) for oncogenic osteomalacia. In animal models, PTHrP appear to produce cancer-associated cachexia as well. Some particular cancers such as those of lung, prostate, breast and thyroid are prone to metastasize into bone resulting in metastatic bone disease. Interactions between these cancers and inhabitant bone cells and bone matrices constitute a favorable condition where particular cancer cells deposit and survive. A variety of principle factors, mostly signal materials, were identified that are responsible for these interactions and these principle factors can be a target for the development of new chemotherapeutic agents.
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PMID:[Bone in malignant disorders: introduction]. 1658 3

We report a newly recognized bone disorder consisting of polyostotic expansile osteolysis affecting long bones and iliac bones; hyperostosis of the skull, thoracic cage, and medial portion of both clavicles; pectus carinatum; gigantiform synovial masses of the elbows and knees; atrial septal defect; cardiomegaly; unilateral cryptorchidism; and mental deficiency. Affected bones can be grouped into four general types of skeletal pathology: (1) expansile osteolysis, (2) osteolysis without expansion, (3) expansion without osteolysis, and (4) hyperostosis. Some bones remained unaffected. We have named the condition "polyosteolysis/hyperostosis syndrome." It is clearly at variance with any previously reported bone disorder, including familial expansile osteolysis, juvenile Paget disease, and McCune-Albright syndrome (and polyostotic fibrous dysplasia). Because our patient shared some features in common with juvenile Paget disease, we thought that mutational analysis of TNFRSF11B was indicated, even though our patient had some manifestations not found in juvenile Paget disease. Direct sequencing failed to identify a TNFRSF11B mutation. Because the parents of our propositus were first cousins suggests that polyosteolysis/hyperostosis syndrome may possibly have autosomal recessive inheritance.
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PMID:A newly recognized polyosteolysis/hyperostosis syndrome. 1700 72

Osteomalacia (OM) is a condition that usually is overlooked and neglected when compared with other metabolic bone disease such as osteoporosis. Presenting with a wide spectrum of nonspecific clinical, radiographic, and biochemical manifestations, OM is a treatable metabolic disease that is precisely diagnosed by anterior iliac crest bone biopsy. Clinical clues to lead one to suspect OM in the context of a diffuse bone disease include the presence of generalized bone pain affecting mainly shoulders, hips and rib cage, proximal muscle weakness, low serum calcium x phosphorus product, increased serum alkaline phosphatase, low calcium in the 24-h urine test, and low serum 25 hydroxyvitamin D. Radiographic examination may show a characteristic "erased" or "fuzzy" type of demineralization, pseudofractures, or bone deformities. OM is confined usually to elderly individuals or to those patients with intestinal malabsorption and hypophosphatemia.
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PMID:Musculoskeletal manifestations of osteomalacia. 1907 64

Bisphosphonates are chemically stable structural analogs of inorganic pyrophosphate. Owing to their ability to inhibit osteoclast activity, bisphosphonates have become the primary agents to treat conditions marked by excessive osteoclast-mediated bone resorption, such as osteoporosis, Paget's disease of bone, and cancer-associated bone disease. At the molecular level, bisphosphonates exert their anti-resorptive effects by inhibiting farnesyl pyrophosphate synthase activity within osteoclasts. Bisphosphonates are generally well tolerated, with many patients now having been treated for more than ten years. Widespread bisphosphonate use, however, has revealed both short-term and long-term side effects in some patients. Here, we review our current understanding of the mechanisms by which bisphosphonates inhibit osteoclast function, the current roles for these medications in clinical practice, and areas of concern that have emerged with widespread bisphosphonate use.
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PMID:Bisphosphonate therapeutics in bone disease: the hard and soft data on osteoclast inhibition. 2053 33

Bisphosphonates were the first bone-directed therapies used to treat skeletal complications resulting from malignant bone disease. Reducing the incidence of skeletal complications has significantly improved patient quality of life. Intravenous bisphosphonates also have been evaluated as an adjunct treatment to minimize bone loss from cancer therapy. In these settings, there is a suggested improvement in cancer-associated outcomes, in addition to their bone-protective benefits. Denosumab is a fully human antibody to the receptor activator of nuclear factor-kappaB ligand. Recently reported data suggest that denosumab is efficacious in decreasing skeletal-related events, but the long-term safety of denosumab remains to be determined. The available data for the approved intravenous bisphosphonates, including zoledronic acid, as well as for other investigational bone-directed therapies is reviewed, with a focus on the incidence and management of treatment-associated side effects.
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PMID:Safety considerations for use of bone-targeted agents in patients with cancer. 2068 74


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