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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Dexamethasone-suppressible
hyperaldosteronism
is a rare familial syndrome in which hypokalemia, suppression of plasma renin concentration, and elevated aldosterone secretion are corrected by treatment with glucocorticoids. Regulation of adrenocortical function and body electrolytes was studied in two affected brothers. Both were hypertensive (210/128 and 160/106 mm Hg) with hypokalemia (3.3 and 3.5 mM) and low plasma renin concentrations. Aldosterone was elevated intermittently with levels as high as 45 ng/dl (normal range, 4-16 ng/dl). Cortisol concentrations were normal but were correlated with aldosterone levels (r = 0.9 and 0.7). Concentrations of 11-deoxycorticosterone (19 and 21 ng/dl; normal range, 4-16 ng/dl) and 18-hydroxycortisol (1000 and 950 ng/dl; normal range, 34-150 ng/dl) were elevated, and diurnal changes in both were the same as those seen with aldosterone. Infusion of
adrenocorticotropic hormone (ACTH)
caused exaggerated increases of aldosterone, 11-deoxycorticosterone, and 18-hydroxycortisol; cortisol response was normal. A 4-week trial of dexamethasone normalized blood pressure and caused a natriuresis, a fall in aldosterone, and a rise in plasma renin. Administration of ACTH after dexamethasone treatment again caused exaggerated increases of aldosterone. Aldosterone did not respond to angiotensin II before dexamethasone therapy (r = 0.01), but it showed a normal response after therapy (r = 0.8, p less than 0.01). Neither administration of dopamine (1 microgram/kg/min) nor long-term therapy with bromocriptine (2.5 mg t.i.d. for 4 weeks) affected aldosterone biosynthesis. Thus, loss of dopaminergic inhibition of mineralocorticoid biosynthesis does not account for
hyperaldosteronism
in this condition.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Dexamethasone-suppressible hyperaldosteronism. Adrenal transition cell hyperplasia? 301 96
We examined the utilization of human low density lipoprotein (LDL)- and high density lipoprotein (HDL)-cholesterol for steroid production in primary monolayer culture cells from adenomas of primary
aldosteronism
and Cushing's syndrome and an adrenal of nodular hyperplasia of Cushing's syndrome. We compared the data obtained with findings in the case of cultured normal human adrenocortical cells. In the presence of 10(-7) M
adrenocorticotropin
(ACTH), the addition of either LDL or HDL to the culture medium at a cholesterol concentration of 100 micrograms/ml led to a significant increase in the daily secretion rates of cortisol, dehydroepiandrosterone sulfate (DHEA-S) and aldosterone in the adenoma and nodular hyperplasia cells, as in the normal cells. Although LDL greatly increased the secretion of steroid hormones, no significant difference in steroid secretion following the treatments with LDL and HDL were observed in these cultured cells. The contribution of endogenous cholesterol to steroid production was also high, thereby indicating that the neoplastic transformation did not have untoward effects. Cells from adenomas of primary
aldosteronism
secreted not only aldosterone, but also cortisol and DHEA-S. The daily secretion rates of these steroids were markedly increased when ACTH was added to the medium. With prolonged exposure to ACTH, however, the rate of aldosterone secretion showed a gradual decrease with the incubation time. This decrease might be due to the impaired conversion of corticosterone to 18-hydroxycorticosterone. In case of adenomas in patients with Cushing's syndrome, the secretion of steroid hormones varied in quantity and quality, depending on the type of plasma cortisol response to the rapid ACTH test in vivo, thereby suggesting that the adrenocortical adenoma of Cushing's syndrome might be divided into two subtypes. These results indicate that human functioning adrenocortical adenoma cells utilize plasma lipoproteins as a source of cholesterol for steroidogenesis during the prolonged stimulation of steroid secretion.
...
PMID:Studies on lipoprotein and adrenal steroidogenesis: II. Utilization of low density lipoprotein- and high density lipoprotein-cholesterol for steroid production in functioning human adrenocortical adenoma cells in culture. 343 98
Pro-gamma-melanotropins (pro-
gamma-MSH
) are implicated in the control of aldosterone secretion by the normal adrenal cortex and in idiopathic
hyperaldosteronism
. In contrast with other melanotropins (alpha- and
beta-MSH
), the pro-
gamma-MSH
increase aldosterone secretion by normal adrenals only in the presence of adrenocorticotrophic hormone (ACTH). However, in aldosteronoma cells this stimulatory effect of the pro-
gamma-MSH
is not ACTH-dependent. The mechanism of pro-
gamma-MSH
action on aldosterone biosynthesis may involve activation of cholesteryl ester hydrolase in zona glomerulosa, resulting in an increased provision of cholesterol for steroidogenesis.
...
PMID:Control of aldosterone secretion by pituitary hormones. 355 89
Angiotensin II has a major effect on mineralocorticoid hormone synthesis in patients with idiopathic
hyperaldosteronism
; it has little or no effect in those with an aldosterone-producing adenoma. To determine if this difference could be of use in clinically separating these two forms of primary
aldosteronism
, saline infusion tests were performed in 20 patients--14 with surgically proved aldosterone-producing adenoma and six with idiopathic
hyperaldosteronism
. With the patients receiving a balanced diet containing 120 meq of sodium, 1,250 ml of isotonic saline was infused intravenously between 8 A.M. and 10 A.M. after overnight recumbency. Plasma samples were obtained immediately before and after the infusion. Plasma cortisol level decreased appropriately in both groups, but plasma renin concentration decreased only in those patients with idiopathic
hyperaldosteronism
(p less than 0.05). Aldosterone and 18-hydroxycorticosterone levels decreased in both groups. To account for the circadian variation in
adrenocorticotropin
levels during the course of saline infusion, 18-hydroxycorticosterone/cortisol and aldosterone/cortisol ratios were examined. Both ratios increased in every patient with aldosterone-producing adenoma (p less than 0.01 and p less than 0.001, respectively), but these ratios remained unchanged or decreased in the patients with idiopathic
hyperaldosteronism
. This divergent variation in ratios after saline infusion allows for the differentiation of patients with an aldosterone-producing adenoma from those with idiopathic
hyperaldosteronism
. In patients with primary
aldosteronism
, an 18-hydroxycorticosterone/cortisol ratio of less than 3.0 or an aldosterone/cortisol ratio of less than 2.2 after saline infusion is diagnostic of idiopathic
hyperaldosteronism
.
...
PMID:Use of the saline infusion test to diagnose the cause of primary aldosteronism. 390 46
A non-ACTH aldosterone-stimulating factor(s) has been implicated in the pathogenesis of idiopathic
hyperaldosteronism
(IHA). Although this factor has not been fully characterized, some evidence suggests that it may be related to a pro-gamma-melanotropin (pro-
gamma-MSH
), derived from the NH2-terminal region of pro-
opiomelanocortin
. In the present study, plasma immunoreactive (IR-)
gamma-MSH
levels at 0800 h in patients with IHA were evaluated (90 +/- 17 fmol/ml; range: 13-173 fmol/ml) and found to be significantly higher (P less than 0.05) than those in subjects with aldosterone-producing adenomas (33 +/- 8 fmol/ml), essential hypertension (33 +/- 6 fmol/ml), and normotensive controls (19 +/- 2 fmol/ml). Seven of nine IHA subjects had circulating IR-
gamma-MSH
levels above the normal range (greater than 35 fmol/ml). In plasmas sampled at 1200 h, IR-
gamma-MSH
was significantly higher in patients with IHA (95 +/- 26 fmol/ml) and adenomas (63 +/- 23 fmol/ml), as compared with essential hypertensives (31 +/- 6 fmol/ml) and normotensives (19 +/- 3 fmol/ml). Mean plasma IR-ACTH, plasma cortisol, and urinary cortisol levels did not differ significantly between any of these groups. In order to evaluate the effect of a pro-
gamma-MSH
in vitro, adrenal adenoma tissue was obtained from two patients, one with elevated IR-
gamma-MSH
(61 fmol/ml) and a second with low IR-
gamma-MSH
(12 fmol/ml). Aldosterone secretion by dispersed adenoma cells from the former, but not the latter, underwent a fourfold dose-dependent (10(-14)-10(-9) M) increase in response to human Lys-gamma 3-MSH. These data suggest that a pro-
gamma-MSH
may be implicated as a pathogenic factor in a subset of patients with primary
aldosteronism
, particularly among those differentially diagnosed as having IHA.
...
PMID:Plasma immunoreactive gamma melanotropin in patients with idiopathic hyperaldosteronism, aldosterone-producing adenomas, and essential hypertension. 401 76
Patients with the "non-salt-losing" form of the adrenogenital syndrome were studied before and after suppression of adrenal cortical activity with carbohydrate-active steroids. The response of aldosterone secretion to sodium deprivation was measured; in some patients response to
adrenocorticotropic hormone (ACTH)
was measured as well. The aldosterone secretion was normal and responded normally to sodium deprivation in all patients studied during suppression with carbohydrate-active steroids. This finding suggests that 21-hydroxylation of progesterone is normal in this syndrome. The sole abnormality in the production of aldosterone in these patients was found to be excessive secretion of aldosterone while they were not receiving suppressive doses of carbohydrate-active steroids. This finding strongly supports the view that the biogenetic pathways through which aldosterone is produced from progesterone are intact in this syndrome. No patient showed hypertension or hypokalemic alkalosis despite very high aldosterone secretion rates. This observation suggests that the hyper-
aldosteronism
is secondary to a tendency to sodium loss in the patient whose ACTH production is not suppressed. These studies provide additional evidence in support of the hypothesis that the salt-losing and "non-salt-losing" forms of adrenogenital syndrome are genetically and biochemically distinct.
...
PMID:Aldosterone hypersecretion in "non-salt-losing" congenital adrenal hyperplasia. 429 11
The effect of stimulating and suppressive influences on plasma aldosterone in normal man and in patients with primary
aldosteronism
were studied using a sensitive double-isotope derivative assay for aldosterone. In normal sitting subjects, values were 9.2+/-0.9 (SE) mmug/100 ml and in subjects supine for 1 hr plasma aldosterone was 5.2+/-0.4 (SE) mmug/100 ml.
Adrenocorticotropic hormone
(
ACTH
), 0.5 U/hr, produced a rise of 46.8+/-22 (SE) mmug which was similar to the 1-hr effect of an infusion of a synthetic
ACTH
(beta(1-24), Cortrosyn). Angiotensin II in pressor amounts also increased plasma aldosterone 21.5+/-2.9 (SE) without change in plasma cortisol, whereas a subpressor dose ([unk]) had minimal effect.Fludrocortisone, 1.2 mg/day for 3 days, suppressed plasma aldosterone levels to 1.8+/-0.7 (SE) mmug/100 ml in five normal sitting subjects (P < 0.01); however, dexamethasone, 2 mg/day for 1-2 days, did not lower aldosterone concentration in plasma. In six patients with primary
aldosteronism
, plasma aldosterone on a normal sodium diet was 39.1+/-4.4 (SE) which differed significantly from normal sitting or supine subjects (P < 0.001). In contrast to the normal subjects, neither a pressor infusion of angiotensin II for 1 hr, nor fludrocortisone, 1.2 mg/day for 3 days, impressively altered plasma aldosterone levels. This approach appears to be useful for the study of the acute physiology and control mechanisms of aldosterone production in normal and hypertensive man.
...
PMID:Stimulation and suppression of aldosterone in plasma of normal man and in primary aldosteronism. 430 57
Three patients with primary
aldosteronism
due to adrenocortical carcinoma were studied, two with
hyperaldosteronism
alone and one also with hypercortisolism; in the later stages all three had hypersecretion of glucocorticoid and androgenic hormones. Although clinical presentations were similar to those of patients with benign adenoma, all had significantly higher concentrations of deoxycorticosterone and aldosterone and more profound hypokalemia. Stimulation with
adrenocorticotropin
in two patients showed a good cortisol response but no aldosterone response. The circadian rhythm for cortisol was normal but absent for aldosterone and deoxycorticosterone. Sequential 24-hour circadian studies in one patient showed that as the disease progressed, corticosterone and finally cortisol lost their circadian rhythms. Treatment with spironolactone, mitotane, or aminoglutethimide had transient clinical effects. The patients died 2 to 13 years later.
...
PMID:Aldosterone-producing adrenocortical carcinoma. Preoperative recognition and course in three cases. 608 4
An adrenal cortex adenoma, surgically removed from a female patient with primary
aldosteronism
, was used to examine the effect of ACTH, angiotensin II, gamma 3-MSH, and the N-terminal fragment of pro-
opiomelanocortin
purified from porcine anterior pituitaries on aldosterone release in vitro. Primary cultures of tumor cells were incubated as a monolayer in a 96-well microtitration plate and the aldosterone release was measured in the incubation medium after 2 h of incubation in the presence of absence of different concentrations of the peptides. On a molar basis, the N-terminal portion of pro-
opiomelanocortin
seems to have the highest activity of all of the peptides assayed.
...
PMID:Effect of N-terminal portion of pro-opiomelanocortin on aldosterone release by human adrenal adenoma in vitro. 626 59
Immunoreactive plasma levels of the proopiolipomelanocortin-derived peptides, ACTH,
beta-endorphin
-lipotropin, and gamma 3MSH, were measured in patients with primary hyperaldosteronism, idiopathic
hyperaldosteronism
with bilateral adrenal hyperplasia, and dexamethasone-suppressible
hyperaldosteronism
. Plasma peptide concentrations in patient groups were not different from those in normal controls. Removal of aldosterone-producing adenomas in three patients and of an aldosterone-producing adrenocortical carcinoma in one patient did not affect plasma peptide concentrations. Furthermore, infusion of the opiate antagonist naloxone (0.2 mg/min) in one patient with bilateral adrenal hyperplasia had no effect on either plasma aldosterone or cortisol. These results suggest that the proopiolipomelanocortin-derived peptides are not overproduced in states of
hyperaldosteronism
.
...
PMID:Plasma immunoreactive proopiolipomelanocortin-derived peptides in patients with primary hyperaldosteronism, idiopathic hyperaldosteronism with bilateral adrenal hyperplasia, and dexamethasone-suppressible hyperaldosteronism. 630 Jan 69
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