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

Parathyroid gland is the overall regulatory organ within the systemic calcium homeostasis. Through cell surface bound calcium-sensing receptors external calcium inversely regulates release of parathyroid hormone (PTH). This mechanism, which is voltage independent and most sensitive around physiologic calcium concentrations, is regulated through a 120 kDa calcium sensing receptor, CaR. Inherited inactivation of this receptor is the cause for familial hypocalciuric hypercalcemia (FHH). Parallel research identified the 550 kDa glycoprotein megalin, which also is expressed on the parathyroid cell surface, as another potential calcium sensing protein. Although this protein expresses numerous calcium binding sites on its external domain, its main function may be calcium sensitive binding and uptake of steroid hormones, such as 25-OH-vitamin D3 (bound to vitamin D binding protein) and retinol. In hyperparathyroidism (HPT), excessive PTH is secreted and the calcium sensitivity of the cells reduced, i.e. the set-point, defined as the external calcium concentration at which half-maximal inhibition of PTH release occurs, shifted to the right. Pathological cells have reduced expression of both CaR and megalin, and reduced amount of intracellular lipids, possibly including stored steroid hormones. A number of possible genetic disturbances have been identified, indicating multifactorial reasons for the disease. In postmenopausal women, however, the individual group with highest incidence of disease, a causal relation to reduced effect of vitamin D is possible. An incipient renal insufficiency with age, lack of sunshine in the Northern Hemisphere, and an association to the baT haplotype of the vitamin D receptor supports this theory. This review summarizes data on regulation of PTH release, dysregulation in HPT, as well as proliferation of parathyroid cells.
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PMID:Pathophysiology of primary hyperparathyroidism. 1080 83

A 44-year-old female with familial hypocalciuric hypercalcemia (FHH) due to a homozygous missense mutation (Pro40Ala) in calcium sensing receptor (CaSR) gene has type 2 diabetes mellitus. The identical heterozygous mutation of CaSR gene was observed in consanguineous parents and all other family members examined except her two sisters. Many subjects with abnormal glucose tolerance were observed in this family, which is compatible with maternal inheritance. Mitochondrial function of complex I (NADH-coenzyme Q reductase) activity in cybrid cells between mitochondrial DNA (mtDNA)-deleted (rho(0)) HeLa cells and mtDNA from the proband was decreased by 35%. The proband has eight substitutions and among these 4833 A/G is a missense substitution in NADH dehydrogenase 2 gene and may probably be a major pathogenic mutation of impaired complex I activity. These results suggest that coexistence of nuclear gene and mtDNA mutations may have caused or modified the development of abnormal glucose tolerance in this family.
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PMID:A patient with type 2 diabetes mellitus associated with mutations in calcium sensing receptor gene and mitochondrial DNA. 1109 89

Recognition of the role of the extracellular calcium sensing receptor (CaR) in mineral metabolism has greatly improved our understanding of calcium homeostasis. The biology of the low affinity, G-protein-coupled CaR and the effects of its activation in various tissues are reviewed. Physiological roles include regulation of parathyroid hormone (PTH) secretion by small changes in ionized calcium (Ca++), and control of urinary calcium excretion with small changes in blood Ca++. The CaR also affects the renal handling of sodium, magnesium, and water. Mutations affecting the CaR that make it either less or more sensitive to Ca++ cause various clinical disorders. Disorders, such as primary and secondary hyperparathyroidism, may exhibit acquired abnormalities of the CaR. Calcimimetic drugs, which amplify the sensitivity of the CaR to Ca++, can suppress PTH levels with a resultant fall in blood Ca++. Experiences with R-568 in patients with secondary and primary hyperparathyroidism and parathyroid carcinoma are summarized. In humans with hyperparathyroidism, these agents produce a dose-dependent fall in PTH and blood Ca++, with larger doses causing more sustained effects. The second generation calcimimetic, AMG 073, with a better pharmacokinetic profile appears to be an effective and safe treatment for secondary hyperparathyroidism, producing suppression of PTH levels with a simultaneous reduction in serum phosphorus levels and the calcium X phosphorus product. The advantage of controlling PTH secretion without the complications related to hypercalcemia, hyperphosphatemia, and increased calcium X phosphorus product is very promising. Treatment trials have been relatively short-term except for one patient treated with R-568 for more than 600 days for parathyroid carcinoma; nonetheless the drug had no major side effects and appeared to be safe. Further long-term controlled studies are underway to further confirm the effectiveness and safety of these compounds.
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PMID:The calcimimetic agents: perspectives for treatment. 1198 29

Recognition of the role of the extracellular calcium sensing receptor (CaR) in mineral metabolism has greatly improved our understanding of calcium homeostasis. The activation of this receptor by small changes in extracellular ionized calcium (ec(Ca2+)) regulates PTH, calcitonin secretion, urinary calcium excretion, and ultimately, bone turnover. The cloning of this CaR and the discovery of mutations making the receptor less or more sensitive to calcium allowed a better understanding of several hereditary disorders characterized either by hyperparathyroidism or hypoparathyroidism. This CaR became an ideal target for the development of compounds, the calcimimetics, able to amplify the sensitivity of the CaR to ec(Ca2+) suppressing PTH levels with a resultant fall in blood Ca2+. The first clinical studies with first-generation calcimimetic agents have demonstrated their efficacy lowering plasma intact PTH concentration in uremic patients with secondary hyperparathyroidism. However, the low bioavailability of these first calcimimetics predicts a difficult clinical utilization. The second-generation calcimimetic AMG-073, with a better pharmacokinetic profile, appears to be effective and safe for the treatment of secondary hyperparathyroidism, producing suppression of PTH levels with a simultaneous reduction in serum phosphorus levels and the calcium X phosphorus product. The advantage of controlling PTH secretion without the complications related to hypercalcemia, hyperphosphatemia, and increased calcium X phosphorus product is very promising.
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PMID:Use of calcimimetics in uremic patients with secondary hyperparathyroidism: review. 1294 Aug 96

Primary hyperparathyroidism is a life-threatening rare disorder. It is seen as a result of neonatal primary hyperparathyroidism, familial hypocalciuric hypercalcemia, increased vitamin D levels and inactivation of calcium sensing receptor mutations. The clinical findings are hypotonia, bone demineralization, hypercalcemia and parathyroid hyperplasia. We present a six-month-old female patient, the first child of nonconsanguineous parents, who was referred for the investigation of failure to thrive, vomiting, constipation, fever, abdominal distention and hypotonia. Physical examination revealed weight under 3rd percentile, height 3rd-10th percentile, decreased subcutaneous fat, and distention of the abdomen. In neurological examination, hypotonia, motor-mental retardation, and active deep tendon reflexes were found. The biochemical values at the time of admission revealed primary hyperparathyroidism. Since hypercalcemia did not respond to calcitonin therapy and due to the mortality of hypercalcemia, parathyroidectomy was performed. Because hyperparathyroidism and hypercalcemia continued, angiography was done which revealed increased parathyroid hormone levels in the periphery of the innominate vein. Exploratory surgery followed, but hyperparathyroidism and hypercalcemia persisted after all of these procedures. Calcium-sensing receptor mutations and supernumerary gland were considered. Because hypercalcemia persisted, pamidronate therapy was initiated on a monthly basis.
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PMID:Persistent elevated serum levels of intact parathyroid hormone after reoperation for primary hyperparathyroidism and after pamidronate therapy. 1469 11

The aim of this paper is to refer the unusual case of a 34 years old woman who consulted because of asymptomatic hypercalcemia, detected in a biochemical routine examination. The elevated values of serum calcium without blunted parathyroid hormone secretion suggested a parathyroid pathology. The concomitance of hypocalciuria with hypercalcemia and a calcium clearance/creatinine clearance ratio less than 0.01 reverted the diagnosis of familial hypocalciuric hypercalcemia, the first option. The absence of familial background led to the molecular study of the patient and her family. The latter confirmed the diagnosis of a de novo inactivating mutation of the calcium sensing receptor. Details on the molecular study and a brief review of this subject are included.
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PMID:[Hypocalciuric hypercalcemia due to de novo mutation of the calcium sensing receptor]. 1533 77

The kidney plays an important role in calcium homeostasis. In this review we discuss new concepts in tubular calcium transport, related proteins and the clinical implications of these new findings. Most calcium reabsorption occurs in the proximal tubules via the passive paracellular pathway, but calcium reabsorption also occurs in the thick ascending limb of Henle's loop (50% via the transcellular pathway). Finally, at the level of the distal convoluted tubule and connecting tubule calcium is reabsorbed via the active transcellular route. The Calcium-sensing receptor, localised along the thick ascending limb of Henle's loop, regulates the urinary calcium excretion in response to changes in extracellular calcium concentration. The Epithelial Calcium Channel 1 is a highly Ca2+-sensitive channel that is predominantly present in the connecting tubule. The Calbindin D(28k) is a cytoplasmatic protein expressed in the distal tubule, it is involved both in transcellular calcium diffusion and in the control of intracellular calcium concentration. Heterozygous mutations in the gene for the calcium sensing receptor, which result in a loss of function by the receptor, are associated with familial hypocalciuric hypercalcaemia. Mutations involving a gain of function have been associated with hypocalcaemia with normal serum parathyroid hormone concentration. Bartter's syndrome, caused by a dysfunction of thick ascending limb cells, is associated with calcium wasting. On the contrary, Gitelman's syndrome, caused by a dysfunction of the distal tubule, is characterised by hypocalciuria and hypomagnesemia.
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PMID:[New concepts of tubular calcium transport in the kidney: clinical implications]. 1535 41

The identification and cloning of the extracellular calcium sensing receptor (CaR) has provided a new conceptual framework in which we can better understand the interactions between extracellular calcium and the many cell types which express the CaR. The role of the CaR in regulating extracellular calcium ion homeostasis has been well established, as has its role in genetically determined disorders such as Familial Hypocalciuric Hypercalcaemia (FHH). This recently acquired knowledge has incited the discovery of new compounds which function as positive allosteric modulators of the CaR (named calcimimetics) and which are under clinical investigation for potential use in primary and secondary hyperparathyroidism. Research into the properties of the CaR produced an overwhelming influx of data but key questions have remained unanswered. We summarize the currently available information about the function of the CaR, underlining the significant progress which has been made in deciphering its role in pathological disorders and in drug development.
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PMID:Extracellular calcium sensing receptor: an overview of physiology, pathophysiology and clinical perspectives. 1564 15

The common feature of both primary and secondary hyperparathyroidism despite differences in their etiopathogenesis is excess parathormone (PTH) secretion. Calcium sensing receptor (CaR) belongs to G-protein coupled receptors superfamily and plays central role in the regulation of PTH secretion. Mutations in receptor's gene lead to PTH suppression set-point shift into higher (familial benign hypocalciuric hypercalcemia) or lower Ca2+ levels (familial hypercalciuric hypocalcemia). Calcimimetics are a new class of drugs which increase the CaR response to agonist binding by allosteric conformation modification. First generation calcimimetics: NPS R-467 and NPS R-568 revealed their effectiveness in PTH suppression in experimental animal model. Short-term trials with NPS R-568 used in people with primary or secondary hyperparathyroidism confirmed significant PTH suppression. In further clinical trials a second generation calcimimetic: AMG 073 was used. AMG 073 intake was related to decrease of serum PTH and phosphorus concentrations and Ca x P product suppression with low number of hypocalcemia or other side effects. In the future calcimimetics could be an alternative to vitamin D active metabolites or analogs treatment and to surgical procedures.
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PMID:[Calcimimetics--a new treatment for hyperparathyroidism?]. 1616 61

The calcium-sensing receptor has a key role in calcium homeostasis, it is involved in the regulation of the serum calcium level within minutes via the secretion and action of parathyroid and the excretion of calcium in the kidney in a negative feedback manner. Mutations of the calcium sensing receptor gene leads to inactivating and activating mutations resulting in diseases with hypercalcaemia and hypocalcaemia. The loss of function mutations are associated with familial benign hypocalciuric hypercalcaemia (FHH), an autosomal dominant disease characterised by lifelong mild hypercalcaemia, low urinary calcium excretion, and inappropriate high parathyroid hormone levels, sometimes difficult to distinguish from mild asymptomatic primary hyperparathyroidism. Patients with FHH did not profit from parathyroidectomy, a calcium lowering therapy is not necessary. The gain of function mutations of the calcium-sensing receptor are associated with autosomal dominant hypocalcaemia (ADH), a disease characterised by a generally asymptomatic hypocalcaemia, inappropriately high urinary calcium excretion and normal PTH levels. A therapy to raise the serum calcium concentration has to be done carefully and is only indicated in symptomatic patients, because of enhancement of hypercalciuria with the risk of nephrocalcinosis and nephrolithiasis. Molecular genetic analysis of the calcium sensing receptor gene facilitates the sometimes difficult diagnosis. The development of compounds modulating the calcium sensing receptor function and thereby the section of PTH may become an important role in treatment of diseases of calcium metabolism.
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PMID:The role of the extracellular calcium-sensing receptor in health and disease. 1703 19


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