UMLS:C0020437 - FACTA Search

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Query: UMLS:C0020437 (hypercalcemia)
10,293 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of furosemide 8 X 10(-4) mol/l an 8 X 10(-5) mol/l on parathyroid hormone stimulated adenylate cyclase was studied in renal tissue slices from guinea pigs. Furosemide caused a dose-dependent inhibition of the effect of parathyroid hormone on production of cyclic AMP, without having any significant effect on the basal cyclic AMP production. Furosemide in similar concentrations did not inhibit the stimulatory effect of thyrotrophin and fluoride in human thyroid homogenates suggesting that furosemide is not an universal inhibitor of adenylate cyclase and that the inhibition is not caused by a direct action of furosemide on the adenylate cyclase enzyme. Furosemide did not interfere with binding of cyclic AMP to cyclic AMP binding protein kinase from rabbit muscle. The results indicate that furosemide exerts an inhibitory influence either upon binding of parathyroid hormone to renal receptors or upon transmission of impulse from receptor to adenylate cyclase. The inhibitory influence of furosemide on parathyroid hormone action in kidney could explain the value of furosemide in the acute treatment of hypercalcaemia, but also suggest that chronic treatment with furosemide might interfere with normal calcium metabolism.
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PMID:Effect of furosemide on parathyroid hormone stimulated guinea pig renal adenylate cyclase and thyrotrophin and fluoride stimulated human thyroid adenylate cyclase. 628 46

When grown in nude mice, cultured renal carcinoma cells from a hypercalcemic patient produced marked hypercalcemia that was reversed by resection of tumor. Conditioned medium from this cell line contained a protein with activity in a renal adenylate cyclase bioassay for parathyroid hormone (PTH) which was blocked by the competitive PTH antagonist [8norleucyl, 18norleucyl, 34tyrosinyl]bPTH (3-34)amide. However, the biologically active protein was eluted from gel filtration columns as a larger molecular size component that PTH and was not recognized by any of four region-specific PTH antisera. The properties of this factor resemble those of the postulated PTH-like substance(s) in humoral hypercalcemia of malignancy.
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PMID:Human renal carcinoma cells produce hypercalcemia in the nude mouse and a novel protein recognized by parathyroid hormone receptors. 629 82

The humoral hypercalcemia of malignancy (HHM) is caused by tumor cells that release a circulating factor which stimulates osteoclastic bone resorption. Recently, it has been reported that tumors associated with HHM contain factors that stimulate renal and bone cell adenylate cyclase. The activity was inhibited by parathyroid hormone (PTH) antagonists, and this led to the hypothesis that hypercalcemia is due to bone resorbing factors that engage PTH receptors in bone. Since it is not known whether the bone resorbing factors act via PTH receptors in bone, we examined the effects of PTH antagonists on PTH-stimulated bone resorption and bone resorbing activity that was produced by two tumor models of HHM which also release these adenylate cyclase stimulating factors. The PTH antagonists [8,18norleucine, 34tyrosine]bovine PTH (3-34) amide and [34tyrosine]bovine PTH (7-34) completely inhibited PTH-stimulated bone resorption. Neither antagonist inhibited bone resorption that was stimulated by the conditioned medium from cells that were derived from the Walker rat 256 tumor model of HHM. Both antagonists also failed to inhibit bone resorption that was stimulated by culture media from cells that were derived from the rat Leydig cell tumor. These data suggest that in these two models of HHM, the bone resorbing factors do not exert their effects by interacting with PTH receptors on bone.
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PMID:Failure of parathyroid hormone antagonists to inhibit in vitro bone resorbing activity produced by two animal models of the humoral hypercalcemia of malignancy. 647 Jan 37

Squamous carcinomas are the most common cause of humoral hypercalcemia of malignancy (HHM) in humans. To develop an animal model of this syndrome, CD-1 female mice were painted with dimethylbenzanthracene, which produced cutaneous squamous carcinomas in the majority of those painted. Greater than 90% of tumor-bearing mice developed a syndrome of hypercalcemia, hypophosphatemia, hypercalciuria, elevated plasma 1,25-dihydroxyvitamin D, normal immunoreactive PTH, elevated urinary cAMP, and accelerated bone resorption compared to control mice. Tumor excision reversed the hypercalcemia and hypophosphatemia, and autopsies revealed no evidence of skeletal or other metastases. Dietary calcium restriction did not affect the hypercalcemia in tumor-bearing mice. Extracts of tumor tissue contained potent bioactivity paralleling that of bovine (b) PTH in a PTH-sensitive canine renal cortical adenylate cyclase assay. The activity was trypsin sensitive and partially inhibitable by Nle, Tyr bPTH amide. The activity coeluted with chymotrypsinogen (mol wt, 25,700) on Sephacryl S-200 chromatography, well ahead of bPTH. This is the first description of an animal squamous carcinoma that produces HHM. With the exception of elevated plasma 1,25-dihydroxyvitamin D levels, the syndrome precisely mimics that seen in human HHM. The presence of a biologically active protein larger than PTH in tumor extracts, similar to that extracted from human tumors, suggests a common mode of pathogenesis. This model should be useful in further studying the pathophysiology of HHM.
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PMID:Squamous carcinoma model of humoral hypercalcemia of malignancy. 649 73

A number of advances which took place during the last decade have increased our understanding of the physiology and pathophysiology of urinary concentrating defects. The development of a highly sensitive radioimmunoassay for plasma vasopressin concentration has shed new light on vasopressin control mechanisms. The cellular action of vasopressin in biological membranes has been studied by various techniques. The role of adenylate cyclase, cyclic adenosine monophosphate (cAMP), microtubules, and microfilaments, in the response of vasopressin-sensitive membranes is now partially understood. New models of countercurrent multiplication systems, in which urea plays a prominent role, offer a better explanation of certain experimental facts. Such advances had permitted a better understanding of clinical conditions characterized by concentrating defects, including hyperkalemia, hypercalcemia, parenchymal renal disease, obstructive renal disease, and polyuria induced by certain drugs.
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PMID:Pathophysiology of renal concentrating defects. 679 72

Secondary hyperparathyroidism is a universal complication of chronic renal failure. It has been proposed that the markedly elevated levels of immunoreactive parathyroid hormone (i-PTH) in uremia may represent a "uremic toxin" responsible for many of the abnormalities of the uremic state. Plasma i-PTH consists of a mixture of intact hormone, a single-chain polypeptide of 84 amino acids, and smaller molecular weight hormonal fragments from both the carboxy- and amino-terminal portion of the PTH molecule. The hormonal fragments arise from metabolism of intact PTH by peripheral organs as well as from secretion of fragments from the parathyroid glands. The structural requirements for the known biological actions of PTH reside in the amino-terminal portion of the PTH molecule. Carboxy-terminal fragments, biologically inactive at least in terms of adenylate cyclase activation, hypercalcemia, or phosphaturia, depend on the kidney for their removal from plasma, and thus accumulate in the circulation in chronic renal failure. It is unknown at the present time if other biological effects of these carboxy-terminal fragments may contribute to some of the biochemical alterations observed in uremia. The most significant consequence of increased PTH levels in uremia is the development of bone disease characterized by osteitis fibrosa. In addition, it would appear that PTH plays an important role in some of the abnormal electroencephalographic patterns observed in uremia. This may be due to a potential role of PTH in increasing calcium content of brain. Parathyroid hormone also has been implicated as a pathogenetic factor in many other alterations present in uremia, i.e., peripheral neuropathy, carbohydrate intolerance, hyperlipidemia, and other alterations. Unfortunately, outstanding clinical research is lacking in this field and conclusive experimental data are practically nonexistent. Further studies are necessary if one is to accept the concept of PTH being a significant "uremic toxin."
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PMID:Parathyroid hormone metabolism and its potential as a uremic toxin. 699 9

The components of calcium and magnesium balance and the factors responsible for the maintenance of the serum concentration of these cations are reviewed. Within this framework, the causes and treatment of disturbances of the serum concentration are discussed. Hypercalcemia is usually a reflection of increased bone resorption and/or gut absorption with the kidney playing a secondary role. Hypocalcemia is usually due to either a disturbance in the parathyroid hormone-adenylate cyclase system or a disturbance in vitamin D metabolism. As vitamin D is required for expression of the action of PTH at bone and as PTH is a prime regulator of vitamin D metabolism, the absence of either component results in important disturbances in calcium balance. In contrast to calcium homeostasis, the kidney plays a major role in the determination and regulation of serum magnesium. The major causes of hypermagnesemia therefore are associated with loss of renal function, and hypomagnesemia is frequently due to renal magnesium wasting.
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PMID:Disorders of calcium and magnesium homeostasis. 703 37

Calcitonin inhibits both osteoclast formation and bone resorption, and is a primary treatment for patients with hypercalcemia and increased bone turnover. However, the clinical utility of calcitonin is limited because patients become refractory to calcitonin after several days (the calcitonin "escape phenomenon"). The molecular basis for calcitonin "escape" is unclear. To determine the regulatory mechanisms controlling calcitonin receptor (CTR) expression in osteoclasts and their precursors, we treated immature mononuclear precursors for human osteoclast-like multinucleated cells (MNC) formed in vitro with 1,25-(OH)2D3, to induce their differentiation to committed mononuclear precursors, and mature multinucleated osteoclasts, and used reverse transcriptase (RT)-PCR to assess expression of CTR mRNA in both committed mononuclear precursors and MNC. The PCR fragment produced was cloned and sequenced to confirm that it was derived from CTR mRNA. CTR mRNA expression was detected in mononuclear MNC precursors after 7 d of 1,25-(OH)2D3 treatment. It was also present in osteoclast-like MNC and highly purified giant cells from osteoclastomas, but not in monocytes or macrophage polykaryons formed in vitro. Calcitonin markedly decreased CTR but not actin mRNA expression in giant cells and MNC after 12 h, and removal of calcitonin restored CTR mRNA expression. Similarly, calcitonin decreased calcitonin-induced adenylate cyclase activity. These data suggest: (a) downregulation of CTR gene expression by calcitonin may in part explain the calcitonin "escape phenomenon"; and (b) expression of CTR mRNA occurs in mononuclear osteoclast precursors within 7 d after exposure to 1,25-(OH)2D3.
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PMID:Downregulation of calcitonin receptor mRNA expression by calcitonin during human osteoclast-like cell differentiation. 781 11

This is a report of a 7-month-old infant with malignant rhabdoid tumor of the kidney (RTK). The patient (pt) demonstrated clinical and biochemical evidence of humoral hypercalcemia of malignancy (HHM). The hypercalcemia responded promptly to calcitonin treatment and tumor removal. Despite aggressive surgery and chemotherapy, the patient expired four months after diagnosis. The primary tumor displayed adenylate cyclase-stimulating activity (ACSA) indicating the production of parathyroid hormone-related protein (PTHrP) by the primary tumor. This is the first report of ACSA documented in a pt with RTK.
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PMID:Rhabdoid tumor of the kidney with humoral hypercalcemia and parathyroid hormone-related protein production. 799 Jul 62

The recent cloning of an extracellular calcium (Ca2+o)-sensing receptor (CaR) from the parathyroid gland and the kidney has provided novel insights into the mechanisms that underlie the direct actions of Ca2+o on various cells. The receptor is a member of the superfamily of G protein-coupled receptors, activating phospholipase C (PLC) and probably also inhibiting adenylate cyclase in target tissues. In the parathyroid gland it is a key mediator of the inhibition by high Ca2+o of parathyroid hormone (PTH) secretion and, perhaps, PTH gene expression and parathyroid cellular proliferation. It also appears to represent the major mechanism through which Ca2+o stimulates the secretion of calcitonin from the thyroidal C-cells. In the kidney, the CaR directly inhibits tubular reabsorption of calcium and magnesium in the thick ascending limb, and may be responsible for the long-recognized, but poorly understood inhibition of urinary concentrating ability by hypercalcemia. The demonstration that activating and inactivating mutations of the CaR, respectively, are the proximate causes of the inherited hypocalcemic disorder, autosomal dominant hypocalcemia (ADH) and the hypercalcemic diseases, familial hypocalciuric hypercalcemia (FHH) and neonatal severe hyperparathyroidism (NSHPT), has provided additional strong support for the physiologic importance of the CaR in human mineral ion homeostasis. Therefore, when Ca2+o acts through its own G protein-coupled cell surface receptor, it acts as an extracellular first messenger in addition to serving its better recognized role as a key intracellular second messenger.
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PMID:The First Annual Bayard D. Catherwood Memorial Lecture. Ca2+-receptor-mediated regulation of parathyroid and renal function. 878 75

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