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)

Cloning of the CaR has increased understanding of the normal control of mineral ion homeostasis and has clarified the pathophysiology of PTH-dependent hypercalcemia. Cloning of the CaR has enabled identification of FHH and NSHPT as inherited conditions with generalized resistance to Ca2+o, which is caused in many cases by inactivating mutations in the CaR gene. In most kindreds with FHH, there is resetting of Ca2+o to a mildly elevated level that does not require an increase in the circulating level of PTH above the normal range to maintain it. FHH is not accompanied by the usual symptoms, signs, and complications of hypercalcemia. The kidney participates in the genesis of the hypercalcemia in FHH by avidly reabsorbing Ca2+; consequently, there is no increased risk of forming urinary calculi in most cases. Generally, there is no compelling rationale for attempting to lower the level of Ca2+o in these patients to a nominal normal level. In contrast, in primary hyperparathyroidism, the Ca2+o resistance is limited to the pathologic parathyroid glands, and the rest of the body suffers the consequences of high circulating levels of calcium, PTH, or both. In this condition, removal of the offending parathyroid glands is often the treatment of choice. Parathyroidectomy may also be appropriate in disorders with generalized resistance to Ca2+o owing to inactivating CaR mutations in the following special circumstances: in selected families with FHH in which there is unusually severe hypercalcemia, frankly elevated PTH levels, or atypical features such as hypercalciuria; in cases of NSHPT with severe hypercalcemia and hyperparathyroidism; and in the occasional mild case of homozygous FHH owing to CaR mutations that confer mild-to-moderate resistance to Ca2+o that escapes clinical detection in the neonatal period. As discussed elsewhere in this issue, selective calcimimetic CaR activators are being tested in clinical trials, which potentiate the activation of the CaR by Ca2+o, thereby resetting the elevated set point for Ca2+o-regulated PTH release in primary and secondary hyperparathyroidism toward normal. It is hoped that these agents may become an effective medical therapy for the acquired Ca2+o resistance in primary and secondary hyperparathyroidism and perhaps for that present in the unusual cases of FHH and NSHPT, resetting the "calciostat" downward and thereby reducing Ca2+o and PTH toward normal.
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PMID:Familial hypocalciuric hypercalcemia and other disorders with resistance to extracellular calcium. 1103 58

Serum calcium is under tight physiological control, but it is also a quantitative trait with substantial genetic regulation. Mutations of the CASR gene cause familial hypocalciuric hypercalcemia or autosomal dominant hypoparathyroidism, depending on whether they decrease or increase, respectively, ligand binding to the receptor protein. We described an association between ionized calcium and a common polymorphism (A986S) found in the cytoplasmic tail of this G protein-coupled receptor. We report here on an independent study of 387 healthy young women. Genotyping was performed by allele-specific amplification and serum chemistries were measured by automated clinical assay. Frequencies of SS, AS, and AA genotypes were 6, 107, and 274, respectively, yielding a 986S allele frequency of 15.4%. Mean total serum calcium (Ca(T)) was significantly higher in the SS (9.88 +/- 0.29 mg/dL, P = 0.015) and AS groups (9.45 +/- 0.05 mg/dL, P = 0.002), than in the AA group (9.23 +/- 0.04 mg/dL). In multiple regression modeling, the A986S genotype remained an independently significant predictor of Ca(T) (P < 0.0001) when serum albumin, globulin, inorganic phosphate, and creatinine covariates were included. These data are the first to show significant association between a common polymorphism and concentrations of a serum electrolyte. The A986S polymorphism is also a potential predisposing factor in disorders of bone and mineral metabolism.
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PMID:Association between total serum calcium and the A986S polymorphism of the calcium-sensing receptor gene. 1116 43

Hyperparathyroidism (HPT) in its hereditary variants assumes special forms, has special associations, and requires special managements. Familial hypocalciuric hypercalcemia (FHH or FBHH) and neonatal severe primary hyperparathyroidism (NSHPT) reflect heterozygous or homozygous mutations, respectively, in the calcium-sensing receptor. FHH and NSHPT represent the mildest and severest variants of HPT. Both cause hypercalcemia from birth and atypical HPT that always and uniquely persists after subtotal parathyroidectomy. Their HPT is likely polyclonal and nonneoplastic. In contrast, mono- or oligo-clonal parathyroid neoplasia underlays most other HPT variants: multiple endocrine neoplasia type 1 (MEN1), multiple endocrine neoplasia type 2A (MEN2A), and hyperparathyroidism-jaw tumor syndrome (HPT-JT). Familial-isolated HPT combines several diagnoses, including occult forms of the above syndromes. Each neoplastic variant has tumors in multiple parathyroids and a delayed, but still early age of onset for HPT (average age, 25-35 years). Each justifies special and similar approaches to parathyroidectomy: typically, identification of four glands, subtotal parathyroidectomy, rapid intraoperative parathyroid hormone (PTH) assays, and parathyroid cryopreservation. Outcomes of parathyroidectomy remain suboptimal in each. Each syndrome of parathyroid neoplasia associates with characteristic cancer(s): enteropancreatic neuroendocrine or foregut carcinoid tissues (MEN1), thyroidal C cells (MEN2A), or parathyroid (HPT-JT). HPT has promoted gene discovery more through its rare hereditary variants than through common adenoma; the main genes causing four of six hereditary variants are known. The RET mutation test became essential in management of MEN2A. The MEN1 test is less urgent, because it rarely guides a major patient benefit. The CASR test, perhaps least urgent, has largely been unavailable. Further progress in molecular genetics will enhance understandings, diagnosis, and therapy of HPT.
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PMID:Hyperparathyroidism in hereditary syndromes: special expressions and special managements. 1241 76

There has been a shift in the referral patterns in recent years that has resulted in increasing numbers of patients being referred to surgeons with a diagnosis of hypercalcemia rather than primary hyperparathyroidism. The surgeon must perform a thorough history, including medications, and laboratory assessment, including serum calcium and parathyroid hormone measurements. A 24-hour urinary calcium excretion should be routinely ordered to exclude FHH. After the diagnosis of primary hyperparathyroidism is made, preoperative localization studies will benefit 78% to 90% of patients, with sestamibi scan being the most commonly used.
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PMID:Current issues in hyperparathyroidism. 1280 17

Familial isolated hyperparathyroidism (FIHP) can result occasionally from the incomplete expression of a syndromic form of familial hyperparathyroidism (HPT), specifically multiple endocrine neoplasia type 1 (MEN1), familial hypocalciuric hypercalcemia, or the hyperparathyroidism-jaw tumor syndrome (HPT-JT). The cause of FIHP has not been identified in the majority of families. We investigated 32 families with FIHP to determine the frequency of occult mutation in HRPT2, the gene causing HPT-JT. All families had negative clinical testing for MEN1, hypocalciuric hypercalcemia, and HPT-JT and negative mutational screening of MEN1 and CASR, the gene for the calcium-sensing receptor. Thus, an extended effort was made to exclude each of the principal syndromic causes of FIHP. The families were characterized by young probands (42 +/- 3 yr) and occasionally unusual parathyroid histology, including four families with one case of parathyroid cancer. We had speculated that there was a high frequency of occult mutation in HRPT2 among such carefully screened kindreds. This hypothesis became testable with the recent identification of that gene. Among the 32 FIHP families, only a single one was found to have a mutation in HRPT2 (679insAG); this mutation predicts premature truncation of its gene product, parafibromin, and thus its presumed inactivation. Even accounting for families with one of the three occult syndromes and false negative biochemical or DNA testing, these results indicate that an unexpectedly large fraction of FIHP has currently unrecognized causes.
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PMID:Familial isolated hyperparathyroidism is rarely caused by germline mutation in HRPT2, the gene for the hyperparathyroidism-jaw tumor syndrome. 1471 34

The human calcium-sensing receptor (CaSR) is a 1078 amino acid cell surface protein, which is predominantly expressed in the parathyroids and kidney, and is a member of the family of G protein-coupled receptors. The CaSR allows regulation of parathyroid hormone (PTH) secretion and renal tubular calcium reabsorption in response to alterations in extracellular calcium concentrations. The human CaSR gene is located on chromosome 3q21.1 and loss-of-function CaSR mutations have been reported in the hypercalcaemic disorders of familial benign (hypocalciuric) hypercalcaemia (FHH, FBH or FBHH) and neonatal severe primary hyperparathyroidism (NSHPT). However, some individuals with loss-of-function CaSR mutations remain normocalcaemic. In addition, there is genetic heterogeneity amongst the forms of FHH. Thus, the majority of FHH patients have loss-of-function CaSR mutations, and this is referred to as FHH type 1. However, in one family, the causative gene for FHH is located on 19p13, referred to as FHH type 2, and in another family it is located on 19q13, referred to as FHH type 3. Gain-of-function CaSR mutations have been shown to result in autosomal dominant hypocalcaemia with hypercalciuria (ADHH) and Bartter's syndrome type V. CaSR auto-antibodies have been found in FHH patients who did not have loss-of-function CaSR mutations, and in patients with an acquired form (i.e. autoimmune) of hypoparathyroidism. Thus, abnormalities of the CaSR are associated with three hypercalcaemic and three hypocalcaemic disorders.
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PMID:Diseases associated with the extracellular calcium-sensing receptor. 1520 Jan 51

Familial benign hypocalciuric hypercalcemia (FBHH), in which calcium homeostasis is disordered, can be distinguished from mild primary hyperparathyroidism by the finding of a heterozygous loss-of-function mutation in the calcium-sensing receptor (CaSR). Here, we report a Polish kindred with FBHH, the proband of which had undergone an unsuccessful parathyroidectomy. Direct sequence analysis of exon 4 of her CASR gene identified a heterozygous R227Q mutation in the extracellular domain of the receptor. This mutation segregated with other affected family members. A de novo heterozygous R227L mutation had previously been identified in a case of neonatal hyperparathyroidism. We performed a functional analysis by transiently transfecting wild-type and mutant (R227Q, R227L) CaSRs in human embryonic kidney (HEK293) cells. Both mutant receptors were expressed at a similar level to that of the wild-type, demonstrated a 160-kDa molecular species consistent with having undergone full maturation, and were visualized on the cell surface. Although both mutants were impaired in their MAPK responses to increasing extracellular calcium concentrations relative to wild type, this was more marked for R227L (EC(50) = 9.7 mM) than R227Q (EC(50) = 7.9 mM) relative to wild type (EC(50) = 3.7 mM). When cotransfected with wild-type CaSR to mimic the heterozygous state, the curves for both R227Q and R227L were right shifted intermediate to the curves for wild type and the respective mutant. This differential responsiveness may account, in part, for the markedly different clinical presentation of the R227Q mutation, classic FBHH, vs. the neonatal hyperparathyroidism of the R227L mutation.
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PMID:Functional characterization of calcium-sensing receptor codon 227 mutations presenting as either familial (benign) hypocalciuric hypercalcemia or neonatal hyperparathyroidism. 1557 18

The CASR, a cell surface glycoprotein expressed in parathyroid gland and kidney, is critical for maintaining extracellular calcium homeostasis. The inherited disorders, familial hypocalciuric hypercalcemia (FHH) and neonatal severe hyperparathyroidism (NSHPT), are caused by inactivating mutations in the CASR gene. The CASR has an N-terminal, 19 amino acid signal peptide that is predicted to direct the nascent polypeptide chain, as it emerges from the ribosome, into the endoplasmic reticulum (ER). Here, we report the functional characterization of three CASR mutations identified in hypercalcemic/hyperparathyroid patients. The mutations, L11S, L13P and T14A, lie within the signal peptide hydrophobic core. When transiently transfected into kidney cells, L11S and L13P mutants demonstrated reduced intracellular and plasma membrane expression and signaling to the mitogen-activated protein kinase pathway in response to extracellular calcium relative to wild-type CASR and the T14A mutant. All mutant CASR RNAs translated into protein normally. In cotranslational processing assays, which test the functionality of the signal peptide in the early secretory pathway, the wild-type CASR and mutant T14A nascent polypeptides were targeted to microsomal vesicles, representing the ER, translocated into the vesicular lumen and underwent core N-glycosylation. In contrast, the L11S and L13P mutants failed to be inserted in the microsomes and undergo glycosylation. This is the first study examining the function of the CASR signal sequence and reveals that both L11S and L13P mutants are markedly impaired with respect to cotranslational processing, accounting for the observed parathyroid dysfunction.
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PMID:Impaired cotranslational processing of the calcium-sensing receptor due to signal peptide missense mutations in familial hypocalciuric hypercalcemia. 1587 34

In this study, we describe a 52-year-old woman, who was diagnosed with familial benign hypocalciuric hypercalcemia (FBHH), a condition characterized by hypercalcemia, low urinary calcium excretion, and normal parathyroid hormone PTH levels, resulting from inactivating mutations of the calcium-sensing receptor (CaSR). In order to identify and characterize the underlying mutation in the CASR gene, direct sequence analysis of CASR exons 2-7 was performed, and functional activity was examined by transient transfection of human embryonic kidney (HEK-293) cells with wild-type and mutant CaSRs, followed by intracellular calcium measurement using fluorometry, and Western blot analysis. Sequence analysis demonstrated, in addition to the already described A986S polymorphism, a novel heterozygous G--> A substitution in CASR exon 5 that causes an arginine to glutamine substitution at codon 465 (R465Q). Functional analysis showed a rightward shift of the dose-response curve with a significant increase of the EC50 from 5.4 mM of the CaSR carrying the A986S polymorphism alone to 11.3 mM of the CaSR carrying the R465Q mutation in the presence of the A986S polymorphism. Western blot analysis of membrane protein revealed an even higher expression level of the R465Q mutant protein compared to wild-type CaSR. In conclusion, we identified a novel heterozygous loss-of-function R465Q mutation of the CASR gene, which is characterized by a blunted response to calcium stimulation, thereby causing FBHH.
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PMID:Identification of a novel inactivating R465Q mutation of the calcium-sensing receptor. 1659 59

We present a male patient with neonatal severe primary hyperparathyroidism, whose manifestation was exceptionally serious for the heterozygous inactivating mutation he carried in the CASR gene. The patient presented soon after birth with respiratory distress requiring long-term mechanical ventilation, bone and chest deformities, feeding problems, and hypotonia. He had hypercalcaemia, hypophosphataemia, and hyperparathyroidism. There was no known history of calcium metabolism disorders in the family. As the impact on calcaemia of a rescue therapy with bisphosphonates was only transient, a subtotal and subsequently total parathyroidectomy were performed in the fourth month of life. Afterwards his clinical status improved and the fractures healed, but his neuropsychological development is delayed due to cerebral atrophy. Genetic analysis revealed a heterozygous missense CASR mutation R185Q, and an approximately equal expression of the mutated and wild-type RNA in the parathyroid tissue. The mother of the child was homozygous for the wild-type allele; the father is unknown. In conclusion, this patient demonstrates how serious neonatal hyperparathyroidism can be when caused by a heterozygous mutation. This may be attributable to a combination of dominant-negative action of the mutant allele with an intrauterine foetal hyperparathyroidism developed in the mother's normocalcaemic environment, further aggravated by a putative maternal vitamin D deficiency during pregnancy.
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PMID:Unusually severe phenotype of neonatal primary hyperparathyroidism due to a heterozygous inactivating mutation in the CASR gene. 1875 24

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