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)

This article will primarily focus on the molecular pathogenesis of common, sporadic (nonfamilial) parathyroid adenomas; two genes currently have established roles in the development of these tumors. The cyclin D1/PRAD1 gene was identified as a clonally activated oncogene in parathyroid adenomas and has subsequently been established as a major contributor to human neoplasia. Overexpression of cyclin D1, a key regulator of the cell cycle, has been implicated in the pathogenesis of 20-40% of sporadic parathyroid adenomas. That such cyclin D1 overexpression indeed constitutes a stimulus to excessive parathyroid cell proliferation has been confirmed experimentally by the development of a transgenic mouse model with parathyroid-targeted overexpression of cyclin D1. Parathyroid hormone (PTH)-cyclin D1 transgenic mice develop parathyroid hypercellularity, biochemical hyperparathyroidism, and a shifted in vivo parathyroid-calcium setpoint; these mice constitute an animal model of human hyperparathyroidism in which aspects of tumorigenesis, parathyroid secretory setpoint control, and the pathophysiology of the chronic hyperparathyroid state can be further investigated. The MEN1 tumor suppressor is the only other gene to date with an established role in the pathogenesis of sporadic parathyroid adenomatosis. Specific clonal alterations involving somatic mutation and/or deletion of both MEN1 alleles have been demonstrated in about 15-20% of sporadic parathyroid adenomas. Allelic losses on 11q occur in roughly twice this number of adenomas, raising the still-unresolved possibility that an additional tumor suppressor gene on 11q may be the functional target of many of these acquired deletions. A mouse model of MEN1 deficiency causes a phenotype that includes parathyroid hypercellularity albeit unaccompanied by biochemical hyperparathyroidism, and additional mouse models in which menin deficiency is targeted to the parathyroids will likely provide additional important insights. The MEN1 gene product menin may have a role in transcriptional regulation involving JunD; several other menin-interacting proteins have also been identified. The in vivo mechanism of menin's actions, with special attention to its role as a parathyroid oncosuppressor, will be important to establish, as will the potential interrelationships between these pathways and those involving cyclin D1. A number of genes, put forth as candidate tumor suppressors based on their genomic locations, roles in familial disease, and/or other relevant biological functions, have been examined for pathogenetic mutations in sporadic parathyroid tumors with negative results; these include the calcium-sensing receptor protein (CaR), vitamin-D receptor (VDR), and RET. However, the CaR, which when partially or markedly deficient because of germline mutation can cause familial hypocalciuric hypercalcemia or neonatal severe hyperparathyroidism, must still be considered as having a potentially important secondary role in the manifestations of sporadic parathyroid tumors. Future goals include identifying additional parathyroid oncogenes and tumor suppressor genes; exploiting tools of complex trait genetics to ascertain whether development of "sporadic" hyperparathyroidism might be influenced by predisposing polymorphic alleles in the population; obtaining molecular insights into the relationship between proliferative and hormone regulatory abnormalities of hyperparathyroidism; and obtaining molecular insights into the observed association of parathyroid neoplasia with exposure to ionizing irradiation and with the postmenopausal state.
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PMID:Molecular pathogenesis of primary hyperparathyroidism. 1241 75

The inactivation of the MEN1 tumor suppressor gene in patients leads to a constellation of changes in endocrine tissues, including parathyroid neoplasia, pituitary adenomas, pancreatic neuroendocrine tumors, and carcinoids. To study the pathophysiological consequences of the deletion of the MEN1 gene, we set out to create a mouse model of hyperparathyroidism resulting from the deletion of the Men1 gene in parathyroid tissue. We introduced a Men1 gene flanked by loxP sites into the mouse germ line and then used a parathyroid cell-specific promoter to drive the expression of Cre recombinase, resulting in the deletion of the Men1 gene. Here, we show that loss of Men1 gene function in the parathyroid glands of mice results in histological changes consistent with parathyroid neoplasia as well as systemic hypercalcemia. This model provides a means for dissecting the molecular basis of this familial cancer syndrome and may allow for the development of new strategies to treat related forms of hypercalcemia.
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PMID:Parathyroid gland-specific deletion of the mouse Men1 gene results in parathyroid neoplasia and hypercalcemic hyperparathyroidism. 1463 35

A rare case of primary hyperparathyroidism associated with primary aldosteronism and breast cancer is reported. A 44-year-old woman was admitted to our hospital to undergo surgical removal of breast cancer. She had hypertension with low serum potassium, and slightly but significantly elevated serum calcium levels. Further studies demonstrated an enlarged left superior parathyroid gland and a left aldosterone-producing adrenocortical adenoma. Blood pressure was controlled with spironolactone and nifedipine, and left mastectomy was done for breast cancer. The pathological diagnosis was scirrhous breast carcinoma. Although the postoperative course was uneventful, her serum calcium gradually and progressively rose to higher levels. Left superior parathyroidectomy and left adrenalectomy were then performed simultaneously. The pathological diagnoses of the resected parathyroid gland and adrenal gland were parathyroid chief cell adenoma and adrenocortical adenoma with hyperplasia of zona glomerulosa, respectively. To clarify if the occurence of these tumors may be related to MEN1 gene mutations, we analyzed MEN1 gene in this patient, and found a loss of heterozygosity of the MEN1 locus in the parathyroid adenoma and breast cancer. Thus, we conclude that an alteration of the MEN1 gene and/or another tumor suppressor gene located at the MEN1 locus on chromosome 11q13 may be responsible for the development of parathyroid adenoma and breast cancer in our patient suggesting that the clinical spectrum of MEN1 might include breast cancer. In addition, serum calcium should be interpreted with caution in primary aldosteronism, because hypercalcemia may be masked in the presence of aldosterone excess.
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PMID:Primary hyperparathyroidism associatiated with aldosterone-producing adrenocortical adenoma and breast cancer: relation to MEN1 gene. 1516 74

We report the case of an 11-year-old child with delayed development who developed signs of exercise-induced pain in the lower limb muscles after an acute attack of appendicitis. He had difficulty standing up from the sitting position and ascending and descending stairs. The physical examination revealed increased reflex activity in the lower limbs. Initially, blood tests, MRI and EMG were normal. Serum phosphorus and calcium were not assayed. Eight months later, the boy's condition worsened (myopathy gait, hyperlordosis) leading to the possible diagnosis of muscle disease. After muscle biopsy, blood tests revealed hypercalcemia at 3.5 mmol/l (normal 2.2-2.6), hypercalciuria, and hypophosporemia. The diagnosis of primary hyperparathyroidism was confirmed by the abnormal level of parathormone initially (19 ng/ml) and later (156 ng/ml) with hypercalcemia. Medical treatment failed and surgery was performed to remove three and a half parathyroid glands. After removal, blood tests returned to normal in six days and the physical examination in three years. The diagnosis of principal cell hyperplasia was retained at the pathology examination. We found no evidence of hypercalcemia or other endocrinopathy such as multiple endocrine neoplasia (MEN 1 or 2a). Study of the menine gene did not reveal any mutation. Muscle dysfunction suggest possible abnormal phosphocalcium regulation. A normal parathormone level with hypercalcemia reveals inappropriate synthesis and secretion.
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PMID:[Primary hyperparathyroidism revealed by pseudomyopathia]. 1595 13

Transient character of laboratory abnormalities is usually explained as a false result of estimation. Spontaneous disappearance of laboratory abnormalities could be recognized as non-important and contradicting serious disease. Presented case of multiple endocrine neoplasia type 1 (MEN 1) denies these assumptions. Sixty-nine-years old woma was admitted to the internal department because of weakness, fever, dehydration and hypotension--symptom accompanying an upper respiratory infection. Moderate hyponatremia (122.6 mmol/l) was found in a routine laborator examination. All clinical symptoms as well as hyponatremia disappeared during hospitalization. Transient hyponatremi was not ignored. Further laboratory and hormonal investigations were performed. Fasting, morning serum cortisol concentration and 24-hours urinary excretion of free corticosterids were decreased and Synacten stimulation test reveale incomplete cortisol stimulation. Pituitary tumour was found in the CT scan. Moreover blood ionized calcium an parathyroid hormone were elevated. These results revealed secondary adrenal insufficiency, non-functioning pituitary tumor and hyperparathyroidism. Removal of pituitary adenoma was done. Asymptomatic hypercalcemia persists. Presented MEN 1 was atypical because: 1. Usually hyperparathyroidism is the first and most frequent symptom while in our patient the first symptom was transient hyponatremia secondary to the pituitary tumor, 2. was diagnosed in the old age while the majority of MEN 1 patients are younger, 3. asymptomatic course of hypercalcemia indicates that in some of elder patients removal of the parathyroid glands might not be necessary.
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PMID:[Transient hyponatremia the first symptome of multiple endocrine neoplasia type 1 (MEN 1)--case report]. 1680 15

We report a 13 year-old mate with a history of multiple fractures and kidney stones. The laboratory showed a hypercalcemia of 11.5 mg/dl, a PTH of 112.6 pg/ml and 24 hour urinary calcium of 571 mg. Bone densitometry showed spine and femur Z scores of -2.9 and -1.6, respectively, kidney ultrasound showed nephrocalcinosis and a MIBI-SPECT scintigram showed a higher uptake in the right lower parathyroid gland. The diagnosis of primary hyperparathyroidism was made and the patient was operated, excising the right lower parathyroid gland. After surgery, serum calcium and PTH levels returned to normal values. In children, the proportion of cases with parathyroid hyperplasia is higher than in adults. Therefore, during surgery all four parathyroid glands must be explored. There is also a higher frequency of ectopic adenomas. Family history must be explored to discard the presence of a multiple endocrine neoplasia (MEN I or II), a familial hyperparathyroidism or a syndrome of primary hyperparathyroidism associated to mandibular tumor.
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PMID:[Primary hyperparathyroidism in an adolescent. Report of one case]. 1919 27

We report the use of a genetic test for therapeutic decision making in a case of primary hyperparathyroidism associated with Cushing's disease (CD). A 20-year-old woman was evaluated for gradual weight gain, asthenia, muscle pain, and hypertension. Biochemical and radiologic tests confirmed CD and she underwent transsphenoidal surgery. Immunohistochemistry of the microadenoma was positive for adrenocorticotropic hormone (ACTH). On follow-up, hypercalcemia with high parathyroid hormone (PTH) levels was detected, associated with nephrolithiasis and low bone mineral density in the spine and hip. Parathyroid scintigraphy showed tracer uptake in the inferior region of the left thyroid lobe, and cervical ultrasound showed a heterogeneous nodule in the same area, suggestive of a parathyroid adenoma (PA). Genetic testing detected mutation in the MEN 1 gene and total parathyroidectomy with the implantation of a fragment of one gland in the forearm was performed. Pathology showed a PA and 3 normal parathyroid glands, without hyperplasia, despite the diagnosis of MEN 1. This case illustrates the role of genetic testing in defining the therapeutic approach for sporadic MEN 1.
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PMID:Application of genetic testing to define the surgical approach in a sporadic case of multiple endocrine neoplasia type 1. 2134 Jan 56

Primary hyperparathyroidism (PHPT) is a common endocrinopathy, mostly caused by a monoclonal parathyroid adenoma. The hereditary syndromes include multiple endocrine neoplasia types 1 (MEN 1) and 2A (MEN 2A), hereditary hyperparathyroidism-jaw tumor (HPTJT), familial isolated hyperparathyroidism (FIHP), familial hypocalciuric hypercalcemia (FHH) and neonatal severe hyperparathyroidism (NSHPT). Mutations of MEN1 and CDKN1B genes are responsible for MEN 1 in 70-80% and about 2% of cases, respectively. MEN1 and CDKN1B genes have also a role in the pathogenesis of sporadic parathyroid adenomas. HRPT2/CDC73 gene mutations are responsible for HPT-JT and sporadic parathyroid carcinoma. MEN1 and HRPT2/CDC73 genes mutations have also been found in a subset of FIHP families. FHH and NSHPT represent the mildest and severest variants of PHPT, caused by heterozygous and homozygous mutations in the calcium sensing receptor (CASR) gene, respectively.
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PMID:Molecular pathogenesis of primary hyperparathyroidism. 2198 78

Multiple endocrine neoplasia (MEN) is a group of heritable syndromes characterized by aberrant growth of benign or malignant tumors in a subset of endocrine tissues. There are three major syndromes: MEN1, 2A and 2B. We describe a 60-year-old woman who initially manifested acute renal failure due to hypercalcemia and dehydration and, finally, was diagnosed as a sporadic MEN1 case.
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PMID:Acute renal failure as an initial manifestation of multiple endocrine neoplasia (MEN) type 1. 2223 32

CIRCULATING CALCIUM AND PHOSPHATE ARE TIGHTLY REGULATED BY THREE HORMONES: the active form of vitamin D (1,25-dihydroxyvitamin D), fibroblast growth factor (FGF)-23, and parathyroid hormone (PTH). PTH acts to stimulate a rapid increment in serum calcium and has a crucial role in calcium homeostasis. Major target organs of PTH are kidney and bone. The oversecretion of the hormone results in hypercalcemia, caused by increased intestinal calcium absorption, reduced renal calcium clearance, and mobilization of calcium from bone in primary hyperparathyroidism. In chronic kidney disease, secondary hyperparathyroidism of uremia is observed in its early stages, and this finally develops into the autonomous secretion of PTH during maintenance hemodialysis. Receptors in parathyroid cells, such as the calcium-sensing receptor, vitamin D receptor, and FGF receptor (FGFR)-Klotho complex have crucial roles in the regulation of PTH secretion. Genes such as Cyclin D1, RET, MEN1, HRPT2, and CDKN1B have been identified in parathyroid diseases. Genetically engineered animals with these receptors and the associated genes have provided us with valuable information on the patho-physiology of parathyroid diseases. The application of these animal models is significant for the development of new therapies.
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PMID:Parathyroid diseases and animal models. 2275 49

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