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:C0001430 (adenoma)
21,222 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Thirteen patients from five families had Familial Hyperaldosteronism Type II (FH-II), a new variety of familial primary aldosteronism not suppressible with dexamethasone that often involves adrenocortical adenoma formation. 2. Five patients had solitary aldosterone-producing adenomas, three had bilateral autonomous overproduction of aldosterone, and in five the subtype is yet to be determined. 3. Comparing FH-II patients with 88 patients with primary aldosteronism of other causes revealed no differences in mean age at presentation or at onset of hypertension, sex incidence, lowest recorded serum potassium, plasma aldosterone, plasma renin activity or adenoma size. 4. Analysis of DNA in peripheral blood of patients with FH-II, their affected and unaffected relatives, and in removed tumours is in progress in order to determine the underlying genetic defect(s) in FH-II, perhaps an abnormality in the P-450aldo gene (CYP11B2). 5. It is recommended that hypertensive relatives of patients with primary aldosteronism should have measurements of the aldosterone/renin ratio.
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PMID:Familial hyperaldosteronism type II: five families with a new variety of primary aldosteronism. 152 63

A human cytochrome P-450 with aldosterone synthase activity was purified from the mitochondria of an aldosterone-producing adenoma. It was recognized by an anti-bovine cytochrome P-450(11 beta) IgG and by a specific antibody raised against a portion of the CYP11B2 gene product, one of the two putative proteins encoded by human cytochrome P-450(11 beta)-related genes (Mornet, E., Dupont, J., Vitek, A., and White, P. C. (1989) J. Biol. Chem. 264, 20961-20967). A similar and probably the same aldosterone synthase cytochrome P-450 was detected in the adrenal of a patient with idiopathic hyperaldosteronism. These aldosterone synthases were distinguishable from cytochrome P-450(11 beta), the product of another cytochrome P-450(11 beta)-related gene, i.e. CYP11B1, by their catalytic, molecular, and immunological properties and also by their localization. The latter enzyme was unable to produce aldosterone and did not react with the specific antibody against the CYP11B2 gene product. It was present both in tumor and non-tumor portions of the adrenals carrying the adenoma and in normal adrenal cortex. On the other hand, aldosterone synthase cytochrome P-450 localized in the tumor portions of the adrenals or in the adrenal of a patient with idiopathic hyperaldosteronism. Thus aldosterone synthase cytochrome P-450, a distinct species from cytochrome P-450(11 beta), is responsible for the biosynthesis of aldosterone in the human, at least in patients suffering from primary aldosteronism.
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PMID:Aldosterone synthase cytochrome P-450 expressed in the adrenals of patients with primary aldosteronism. 204 May 91

Familial hyperaldosteronism type II (FH-II) is characterized by autosomal dominant inheritance and hypersecretion of aldosterone due to adrenocortical hyperplasia or an aldosterone-producing adenoma; unlike FH type I (FH-I), hyperaldosteronism in FH-II is not suppressible by dexamethasone. Of a total of 17 FH-II families with 44 affected members, we studied a large kindred with 7 affected members that was informative for linkage analysis. Family members were screened with the aldosterone/PRA ratio test; patients with aldosterone/PRA ratio greater than 25 underwent fludrocortisone/salt suppression testing for confirmation of autonomous aldosterone secretion. Postural testing, adrenal gland imaging, and adrenal venous sampling were also performed. Individuals affected by FH-II demonstrated lack of suppression of plasma A levels after 4 days of dexamethasone treatment (0.5 mg every 6 h). All patients had negative genetic testing for the defect associated with FH-I, the CYP11B1/CYP11B2 hybrid gene. Genetic linkage was then examined between FH-II and aldosterone synthase (the CYP11B2 gene) on chromosome 8q. A polyadenylase repeat within the 5'-region of the CYP11B2 gene and 9 other markers covering an approximately 80-centimorgan area on chromosome 8q21-8qtel were genotyped and analyzed for linkage. Two-point logarithm of odds scores were negative and ranged from -12.6 for the CYP11B2 polymorphic marker to -0.98 for the D8S527 marker at a recombination distance (theta) of 0. Multipoint logarithm of odds score analysis confirmed the exclusion of the chromosome 8q21-8qtel area as a region harboring the candidate gene for FH-II in this family. We conclude that FH-II shares autosomal dominant inheritance and hyperaldosteronism with FH-I, but, as demonstrated by the large kindred investigated in this report, it is clinically and genetically distinct. Linkage analysis demonstrated that the CYP11B2 gene is not responsible for FH-II in this family; furthermore, chromosome 8q21-8qtel most likely does not harbor the genetic defect in this kindred.
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PMID:Familial hyperaldosteronism type II: description of a large kindred and exclusion of the aldosterone synthase (CYP11B2) gene. 974 30

Idiopathic hyperaldosteronism (IHA) is characterized by hypertension with excessive production of aldosterone, potassium loss, and suppression of the renin-angiotensin system. We compared activity of aldosterone synthase and expression of CYP11B2 messenger RNA (mRNA) in mononuclear leukocytes (MNL) from patients with IHA to findings in leukocytes from patients with aldosterone-producing adenoma and normal controls. Aldosterone synthase activity was estimated from conversion of [14C]deoxycorticosterone to [14C]aldosterone. Levels of CYP11B2 mRNA were determined by competitive PCR. In the same subjects, we sought the chimeric CYP11B1/CYP11B2 that is candidate gene for glucocorticoid-remediable hyperaldosteronism. Southern blot analysis and a long PCR method were used to detect the chimeric gene. Direct sequencing of the CYP11B2 also was performed. No chimeric genes or mutations in the coding region of the CYP11B2 were found in genomic DNA from these patients. However, both aldosterone synthase activity and CYP11B2 mRNA expression were greater in mononuclear leukocytes of patients with IHA than those of patients with aldosterone-producing adenoma or controls. These results suggest that regulatory factors of the CYP11B2 gene, e.g. unidentified aldosterone-stimulating substances or abnormalities in the promoter region of the CYP11B2 gene in patients with IHA resulting in oversecretion, may cause overexpression of mRNA of CYP11B2.
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PMID:Genetic analysis of aldosterone synthase in patients with idiopathic hyperaldosteronism. 1032 92

Primary aldosteronism is characterized by autonomous production of aldosterone and arterial hypertension, and it occurs in 2 principal forms: aldosterone-producing adenoma (APA) and idiopathic hyperaldosteronism (IHA). APA can be cured through removal of the adenoma, whereas IHA leads to hypertension that must be treated with medication. The origin of the autonomous aldosterone production in IHA is poorly understood, but genetic factors may contribute to its cause. To test the hypothesis that variants of the aldosterone synthase gene may contribute to susceptibility to IHA, we compared genotypes at 3 polymorphic sites in the CYP11B2 gene in patients with IHA (n=90) with those found in patients with APA (n=38), in patients with essential hypertension (n=72), and in normotensive individuals (n=102). We observed significant linkage disequilibrium among the 3 polymorphisms with 2 frequent haplotypes in all groups studied. One haplotype (C2R) was found to be increased in frequency in the IHA group (47%) compared with the other groups, which had a similar haplotype frequency (36%). The 3 polymorphisms studied have been implicated in either essential hypertension or excess aldosterone production in previous studies. Because of the strong linkage disequilibrium, the observed results could be due to the action of any 1 of the 3 alleles or to another allele in linkage disequilibrium with them. Our results suggest that variations in the CYP11B2 gene may contribute to dysregulation of aldosterone synthesis and lead to susceptibility to IHA.
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PMID:CYP11B2 gene polymorphisms in idiopathic hyperaldosteronism. 1072 May 80

Although a chimeric gene combining the 11beta-hydroxylase gene (CYP11B1) and the aldosterone synthase gene (CYP11B2) explains the pathophysiology of familial hyperaldosteronism (FH) type I, the contribution of this abnormality to FH type II has not been tested. We screened genomic DNA from a Japanese family with FH type II for the CYP11B1/CYP11B2 gene. The index patient was a 27-year-old woman with hypertension. Hypokalaemia, elevated plasma aldosterone and suppressed plasma renin activity suggested primary aldosteronism. Though computed tomography failed to reveal an adrenal tumour, left adrenalectomy was indicated due to a high aldosterone concentration in left adrenal venous blood. The resected adrenal gland contained an adenoma. As her mother had also been diagnosed with primary aldosteronism due to an adenoma, we administered oral dexamethasone to our patient before the operation and observed the response of the blood pressure and plasma aldosterone concentration for 2 weeks. Both parameters remained elevated during the treatment period, confirming the diagnosis of FH type II. Total DNA was isolated from blood cells of the index patient, her mother, and an unaffected brother. Samples were amplified by polymerase chain reaction using specific primers from CYP11B1 and CYP11B2. Unique DNA fragments of 1.4 kb were obtained from the index patient and her mother, but not from the healthy subject. The CYP11B1/CYP11B2 chimeric gene was found in a Japanese family with FH type II.
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PMID:A chimeric CYP11B1/CYP11B2 gene in glucocorticoid-insuppressible familial hyperaldosteronism. 1145 62

Adenomas of the adrenal cortex cause different disorders depending on the main steroid synthesized and released. The aim of this research is to increase our understanding of the pathophysiology of steroidogenesis in adrenocortical disorders by comparing the release of steroids from adrenocortical adenomas in vitro with the messenger RNA (mRNA) expression of steroid synthesizing enzymes. Fourteen patients with adrenal tumors were included in the present study; nine were diagnosed with primary aldosteronism and three with Cushing's syndrome. Two patients had an adrenal tumor discovered on computed tomography (CT) during workup for an unrelated disease. Serum cortisol, plasma aldosterone, and urinary catecholamines were normal. Tissue was taken for in vitro steroid release, and aldosterone and cortisol in the medium after a 1-hour incubation were determined. Oligonucleotide probes with sequences complementary to mRNAs encoding for the steroid synthesizing enzymes 11 beta-hydroxylase (CYP11B1), 18-hydroxylase (CYP11B2), 17 alpha-hydroxylase (CYP17), and 21-hydroxylase (CYP21) were synthesized (Genset, Paris, France) and in situ hybridization was performed. Moderate expression of CYP11B2 and low expression of CYP11B1 were seen in the zona glomerulosa. The zona fasciculata of the control adrenals expressed a high signal of CYP11B1, whereas the expression of CYP11B2 was very low. There was considerable variation in aldosterone release from the aldosteronomas, whereas the tumors from the Cushing patients showed no detectable release of aldosterone. In contrast, tumors from patients with primary aldosteronism, Cushing's syndrome, and no hyperfunction all had the ability to synthesize and release cortisol in vitro. The highest cortisol release was found in tumors from patients with Cushing's syndrome, but also the nonhyperfunctioning tumors and some of the aldosteronomas released significant amounts of cortisol. The two patients with highest release of aldosterone in vitro showed the highest expression of CYP11B2 and the lowest expression of CYP11B1 and CYP17. The remaining aldosteronomas had low expression of CYP11B2, similar to the two other groups. Expression of CYP11B1 was high as expected in the Cushing adenomas, but also the two nonhyperfunctioning tumors and some of the aldosteronomas showed a moderate expression. Adenomas from Cushing's syndrome, nonhyperfunctioning adenomas, and some of the aldosterone-producing adenomas had moderate to high expression of CYP17. This paper presents new means for functional characterization of adrenocortical tumors. Diagnosis of an aldosteronoma is often difficult, and with the advent of these methods it is possible to determine the functional capacity of a tumor, once it is removed. This is of special interest if the patient remains hypertensive postoperatively, and it is not clear whether the patient indeed had a functioning tumor.
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PMID:In vitro release of aldosterone and cortisol in human adrenal adenomas correlates to mRNA expression of steroidogenic enzymes for genes CYP11B2 and CYP17. 1157 38

The syndrome of primary aldosteronism is characterized by hypertension with excessive production of aldosterone, potassium loss, and suppression of the renin-angiotensin system. The most common clinical subtypes of primary aldosteronism are aldosterone-producing adrenocortical adenoma (APA) and bilateral adrenal cortical hyperplasia (idiopathic hyperaldosteronism, or IHA). It has been reported that renin suppression and aldosterone levels are lower and hypokalemia milder in patients with IHA than in patients with APA. In the present study, we investigated the genetic analysis of aldosterone synthase gene, CYP11B2 in patients with primary aldosteronism and review the recent studies. The chimeric CYP11B1/CYP11B2 gene, which is a candidate gene for glucocorticoid-remediable hyperaldosteronism, was not found in either the DNA from aldosteronoma or in the genomic DNA from patients with APA or IHA. Mutations in the CYP21 or CYP11B1 gene were not present in patients with APA. No mutations in the coding region of the CYP11B2 gene were found in patients with IHA or APA. The level of CYP11B2 messenger RNA (mRNA) was much higher in the aldosteronoma portion than in nonadenomatous portion. The overexpression of CYP11B2 mRNA seen in the mononuclear leukocytes of patients with IHA suggests that unidentified aldosterone-stimulating factors or abnormalities of the CYP11B2 promoter region may cause the overproduction of aldosterone characteristic of IHA. The variants of the CYP11B2 gene may also contribute to dysregulation of aldosterone synthesis and lead to susceptibility to IHA.
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PMID:Genetic alterations in patients with primary aldosteronism. 1167 38

Primary aldosteronism (PA) is the most common cause of endocrine hypertension. PA is most frequently presented as moderate to severe hypertension, but the clinical and biochemical features vary widely. The aim of our study was to identify genetic variants that influence the phenotype of patients with PA. We hypothesized that genetic variants potentially affecting aldosterone production (aldosterone synthase, CYP11B2), renal proximal tubule reabsorption (alpha-adducin), or the mechanisms of counterbalance leading to vasodilatation and sodium excretion (bradykinin B(2)-receptor, B(2)R) could influence the clinical and biochemical characteristics of patients with PA. We studied three polymorphisms of these genes (C-344T of CYP11B2, G460W of alpha-adducin, and C-58T of B(2)R) in 167 primary aldosteronism patients (56 with aldosterone-producing adenoma and 111 with idiopathic hyperaldosteronism). B(2)R and alpha-adducin genotypes were strong independent predictors of both systolic and diastolic blood pressure levels; plasma renin activity and aldosterone also play a marginal role on BP levels. Body mass index, age, sex, and CYP11B2 genotype displayed no significant effect on the clinical parameters of our population. In particular, alpha-adducin and B(2)R polymorphisms accounted for 13.2% and 11.0% of the systolic and diastolic blood pressure variance, respectively. These data suggest that genetic variants of alpha-adducin and the bradykinin B(2)-R influence the blood pressure levels in patients with primary aldosteronism.
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PMID:Blood pressure in patients with primary aldosteronism is influenced by bradykinin B(2) receptor and alpha-adducin gene polymorphisms. 1210 46

The adrenal cortex synthesizes and releases steroid hormones, mainly mineralocorticoids and glucocorticoids. There is a functional zonation of the adrenal cortex and steroid synthesis is thoroughly regulated. Overproduction of aldosterone, primary aldosteronism, may be much more common than previously known and may be responsible for 10% of essential hypertension. Primary aldosteronism is characterized by autonomous production of aldosterone, suppressed renin activity, hypokalemia, and hypertension. The two most common forms are unilateral adenoma and bilateral hyperplasia. In spite of thorough clinical workup and careful histopathology it is often difficult to differentiate between adenoma and hyperplasia. The gene CYP11B2 encodes the steroid synthesizing enzymes for aldosterone production, while the genes CYP17 and CYP11B1 are needed for cortisol production. Most normal controls show expression of CYP11B2 in zona glomerulosa. Expression of CYP11B1 and CYP17 is seen in zona fasciculata and reticularis, whereas the expression of CYP21 is present in all three cortical layers. Adenomas from patients with primary aldosteronism show considerable variation in the expression of CYP11B2. Adenomas from patients with Cushing's syndrome have a strong expression of CYP11B1 and CYP17. In a patient material of 29 cases of primary aldosteronism, 4 patients had small nodules detected with expression of CYP11B2 gene. These nodules were not visualized on CT, whereas adrenal masses seen on CT in these patients showed CYP11B1 and CYP17 gene expression. This suggests that these small nodules are responsible for the aldosterone production and this is characteristic of nodular hyperplasia in patients with primary aldosteronism. In conclusion, this method to visualize mRNA gene expression of steroidogenic enzymes, and especially expression of CYP11B2, has increased the knowledge of adrenal pathophysiology. The results emphasize the value to include functional studies (venous sampling and/or scintigraphy) in the preoperative work up of patients with primary aldosteronism.
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PMID:New aspects on primary aldosteronism. 1260 5


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