Topic
Adrenocortical hyperfunction
About: Adrenocortical hyperfunction is a research topic. Over the lifetime, 253 publications have been published within this topic receiving 6122 citations. The topic is also known as: Adrenocortical hyperfunction & Overproduction of cortisol.
Papers published on a yearly basis
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Papers
TL;DR: Findings demonstrate striking variations in phenotypes and clinical outcome resulting from different mutations of the same amino acid in KCNJ5 and have implications for the diagnosis and pathogenesis of primary aldosteronism with and without adrenal hyperplasia.
Abstract: We recently implicated two recurrent somatic mutations in an adrenal potassium channel, KCNJ5, as a cause of aldosterone-producing adrenal adenomas (APAs) and one inherited KCNJ5 mutation in a Mendelian form of early severe hypertension with massive adrenal hyperplasia. The mutations identified all altered the channel selectivity filter, producing increased Na+ conductance and membrane depolarization, the signal for aldosterone production and proliferation of adrenal glomerulosa cells. We report herein members of four kindreds with early onset primary aldosteronism of unknown cause. Sequencing of KCNJ5 revealed that affected members of two kindreds had KCNJ5G151R mutations, identical to one of the prevalent recurrent mutations in APAs. These individuals had severe progressive aldosteronism and hyperplasia requiring bilateral adrenalectomy in childhood for blood pressure control. Affected members of the other two kindreds had KCNJ5G151E mutations, which are not seen in APAs. These subjects had easily controlled hypertension and no evidence of hyperplasia. Surprisingly, electrophysiology of channels expressed in 293T cells demonstrated that KCNJ5G151E was the more extreme mutation, producing a much larger Na+ conductance than KCNJ5G151R, resulting in rapid Na+-dependent cell lethality. We infer that this increased lethality limits adrenocortical cell mass and the severity of aldosteronism in vivo, accounting for the milder phenotype among these patients. These findings demonstrate striking variations in phenotypes and clinical outcome resulting from different mutations of the same amino acid in KCNJ5 and have implications for the diagnosis and pathogenesis of primary aldosteronism with and without adrenal hyperplasia.
252 citations
TL;DR: Cortisol resistance is a rare familial syndrome owing to an abnormal glucocorticoid receptor with a decreased affinity for cortisol in patients with apparent end-organ resistance to cortisol.
Abstract: We have studied a man suspected of having primary cortisol resistance on the basis of high 24-h mean plasma cortisol levels (27.4 micrograms/dl) and no stigmata of Cushing's syndrome. His son had slightly elevated 24-h mean plasma cortisol levels (9.9 micrograms/dl; normal 7.52 micrograms/dl). Both had high plasma protein unbound cortisol and increased urinary free cortisol. Plasma ACTH concentration was high, and both were resistant to adrenal suppression by dexamethasone. The father appeared to have mineralocorticoid excess resulting in hypertension, hypokalemia, and metabolic alkalosis. This was found to be due to markedly elevated plasma levels of deoxycorticosterone and corticosterone. The son, who was normotensive, had mildly increased plasma corticosterone and normal deoxycorticosterone levels. To study the apparent end-organ resistance to cortisol, we examined the glucocorticoid receptor in the white cells and fibroblasts of these patients. In both tissues, using both whole cell and cytosol assays, the glucocorticoid receptor was found to have reduced affinity for dexamethasone. In the cytoxol assays, a reduced receptor number was found as well. We conclude that cortisol resistance is a rare familial syndrome owing to an abnormal glucocorticoid receptor with a decreased affinity for cortisol.
250 citations
Journal Article•
225 citations
TL;DR: Urinary cortisol determinations were carried out on samples from 162 subjects by a method described previously and can be carried out in 2–3 hr and is particularly useful clinically for the detection of adrenocortical hyperfunction.
Abstract: Urinary cortisol determinations were carried out on samples from 162 subjects by a method described previously. After extracting the cortisol from 1 ml or less of a 24-hr urine volume into methylene chloride, it was measured according to its competition with tritiated cortisol for binding sites on the corticosteroid-binding globulin of human plasma. Values in healthy subjects (48 ± 32 μg/24 hr with a range of 0 to 108 μg/24 hr) did not differ significantly from those found in obese, chronically ill and hypertensive patients. All 32 values found in 14 cases of Cushing's syndrome exceeded 120 μg/24 hr. Subjects in whom adrenocortical secretion was suppressed by dexamethasone or who were known to have adrenocortical hypofunction had very low values (3±6 μg/24 hr). This determination can be carried out in 2–3 hr and is highly specific for cortisol. It is particularly useful clinically for the detection of adrenocortical hyperfunction.
221 citations
TL;DR: Two different gsp mutations are found in three patients with Cushing's syndrome due to AIMAH, and it is speculated whether they belong to the spectrum of McCune-Albright syndrome or whether these are the first reported cases of AIMah due to gsp mutation.
Abstract: ACTH-independent macronodular adrenal hyperplasia (AIMAH) is an uncommon cause of Cushing’s syndrome characterized by bilateral nodular adrenocortical hyperfunction in the presence of suppressed ACTH levels. We investigated whether activating mutations in the ACTH receptor (MC2-R) or Gsα (GNAS1) genes might be involved in AIMAH genesis. Five women with Cushing’s syndrome due to AIMAH, confirmed by histological studies, and no signs of McCune-Albright syndrome were selected for molecular analysis of these genes. The single exon of the MC2-R gene and exons 8 and 9 of the GNAS1 gene were amplified by PCR in genomic DNA from adrenal nodules and peripheral blood. Direct sequencing revealed only MC2-R wild-type sequences. GNAS1 PCR products at denaturing gradient gel electrophoresis revealed abnormal migration patterns in adrenal tissues of three patients. Automatic sequencing showed two different activating mutations at codon Arg201 of GNAS1, a substitution by histidine in two cases and by serine in one case. ...
187 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2024 | 3 |
| 2022 | 2 |
| 2021 | 2 |
| 2019 | 1 |
| 2018 | 1 |
| 2017 | 2 |