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: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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.
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PMID:Use of the saline infusion test to diagnose the cause of primary aldosteronism. 390 46

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.
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PMID:Stimulation and suppression of aldosterone in plasma of normal man and in primary aldosteronism. 430 57

The effects of adrenocorticotropin (ACTH), angiotensins I and II, increased potassium, and decreased sodium concentrations upon steroid synthesis were examined by incubation of beef adrenal tissue slices. Angiotensin II shared with ACTH the need for calcium and an inhibition of its effect in the presence of puromycin but differed in not stimulating cyclic adenosine monophosphate (AMP). Angiotensin I was effective in steroidogenesis. The stimulation of aldosterone synthesis by increased potassium concentration was accompanied by an increased level of cyclic AMP and was inhibited in the presence of puromycin. Decreased sodium concentration stimulated aldosterone synthesis but, alone of these stimuli, simultaneously decreased corticosterone levels. It therefore appears that ACTH and potassium stimulate steroidogenesis at an early step in the biosynthetic pathway through the activation of cyclic AMP, whereas the effect of angiotensins I and II involve another mechanism and decreased sodium concentration affects a later step in steroidogenesis.
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PMID:Adrenocortical steroidogenesis: studies on the mechanism of action of angiotensin and electrolytes. 434 26

The comparative effects of angiotensin II and adrenocorticotropic hormone (ACTH) on cyclic AMP and steroidogenesis were investigated employing isolated bovine adrenal cells from the zona fasciculata. Like ACTH, angiotensin produced a prompt increase in cyclic AMP which preceded the increase in corticosteroid production. Although this increase in cyclic AMP was small when compared to that induced by ACTH, it correlated with the amount of steroidogenesis. This observation is consistent with the view that cyclic AMP is the intracellular mediator of the steroidogenic action of angiotensin. Angiotensin acted synergistically with ACTH on cyclic AMP levels. This synergism was not explained by inhibition of phosphodiesterase activity. Unlike ACTH, angiotensin failed to stimulate adenylate cyclase in broken cell preparations. The observations suggest that more than one mechanism may be involved in effects of ACTH and angiotensin on cyclic AMP levels.
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PMID:Comparative effects of angiotensin and ACTH on cyclic AMP and steroidogenesis in isolated bovine adrenal cells. 434 44

The present report concerns the immunocytochemistry of various peptide hormones and in particular their location in nervous structures. However, since the hormones observed in the neuroadenohypophysis and the digestive tractus have been examined elsewhere, they have been excluded from this study, except when considered outside there precise areas. The immunocytology of the following neuropeptides is presented, especially the particular details related to their demonstration: 1) The hypothalamic hypophysiotropic factor: LH-RF, SRIF, TSH-RF; derivatives from the so-called proopiocortine found by Mains and Eipper (1977), namely beta-LPH, enkephalins, endorphins, alpha-MSH- and ACTH-like antigens; 2) Prolactin and somathormone found outside the pituitary; 3) Gastro-intestinal hormones and their location outside the digestive hormones and their location outside the digestive mucosa, namely VIP, CCK, substance P; 4) Angiotensin II in nervous structures; 5) Neurotensin; 6) Thyrocalcitonin; 7) Relaxin, and the problem of its presence in the adult male genital tract. New data in invertebrate located vertebrate neuropeptides-like antigens in the nervous structures of pro-chordates (Ascidians) insects, crustaceans, annelids. These last findings underline the extensive significance of such hormonal molecules previously considered to be specific for vertebrates.
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PMID:Immunocytochemistry of polypeptide hormones: a review. 616 60

There are now about twelve substances, many of them peptides, that are thought to act as neurotransmitters in the enteric nervous system. Most of the studies of peptides have relied on immunochemical methods for their detection. However, difficulties arise in these studies because of the close similarities between peptides. Related peptides can be grouped in several ways according to similarities of origin, function, effects in bioassays and amino acid sequences. Peptides with the same function in different species, and only slight differences in amino acid sequence, have been called isopeptides. Peptide families that have sequences of amino acids in common, but do not necessarily have similar functions are described. In the guinea-pig small intestine, used as a model, the concentrations of fourteen nerve-related peptides and amines are compared. The actual chemical natures of the peptides are discussed. It is concluded that nerves containing authentic leu- and met-enkephelin, somatostatin and substance P are present. VIP in guinea-pig enteric nerves is different from the porcine standard. Peptides similar to authentic CCK8 and amphibian skin bombesin are present. Angiotensin and neurotensin-like peptides shown immunohistochemically are not the authentic peptides. In the longitudinal muscle plus myenteric plexus, most neuropeptide concentrations are in the range of 10-500 pmole/g. The exception is met-enkephalin (1,300 pmole/g). The amine transmitters have considerably higher concentrations, noradrenaline having a concentration of about 3,500 pmole/g and acetylcholine 1-2 x 10(5) pmole/g.
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PMID:Detection and characterisation of neurotransmitters, particularly peptides, in the gastrointestinal tract. 617 12

To investigate the role of non-ACTH pituitary peptides on steroidogenesis, we studied the effects of synthetic beta-lipotropin, beta-melanotropin, and beta-endorphin on aldosterone and corticosterone stimulation using rat adrenal collagenase-dispersed capsular and decapsular cells. beta-lipotropin induced a significant aldosterone stimulation in a dose-dependent fashion (10 nM-1 muM). beta-endorphin, which is the carboxyterminal fragment of beta-lipotropin, did not stimulate aldosterone production at the doses used (3 nM-6 muM). beta-melanotropin, which is the middle fragment of beta-lipotropin, showed comparable effects on aldosterone stimulation. beta-lipotropin and beta-melanotropin did not affect corticosterone production in decapsular cells. Although ACTH(1-24) caused a significant increase in cyclic AMP production in capsular cells in a dose-dependent fashion (1 nM-1 muM), beta-lipotropin and beta-melanotropin did not induce an increase in cyclic AMP production at the doses used (1 nM-1 muM). The beta-melanotropin analogue (glycine[Gly](10)-beta-melanotropin) inhibited aldosterone production induced by beta-lipotropin or beta-melanotropin, but did not inhibit aldosterone production induced by ACTH(1-24) or angiotensin II. Corticotropin-inhibiting peptide (ACTH(7-38)) inhibited not only ACTH(1-24) action but also beta-lipotropin or beta-melanotropin action; however it did not affect angiotensin II-induced aldosterone production. (saralasin [Sar](1); alanine [Ala](8))-Angiotensin II inhibited the actions of beta-lipotropin and beta-melanotropin as well as angiotensin II. These results indicate that (a) beta-lipotropin and beta-melanotropin cause a significant stimulation of aldosterone production in capsular cells, (b) beta-lipotropin and beta-melanotropin have a preferential effect on zona glomerulosa cells, (c) beta-melanotropin contains the active peptide core necessary for aldosterone stimulation, (d) the effects of these peptides on aldosterone production may be independent of cyclic AMP, and (e) the receptors for beta-lipotropin or beta-melanotropin may be different from those for ACTH or angiotensin II.
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PMID:Effects of beta-lipotropin and beta-lipotropin-derived peptides on aldosterone production in the rat adrenal gland. 626 63

Angiotensin II (ANG II) acts on the brain to elevate blood pressure (BP), stimulate drinking, increase the secretion of vasopressin and corticotropin (ACTH), and inhibit the secretion of renin. The present studies were designed to evaluate the possible physiological significance of these effects. The experiments were performed in conscious dogs with small catheters chronically implanted in both carotid and both vertebral arteries. ANG II was infused into both carotid or both vertebral arteries in doses of 0.1, 0.33, 1.0, and 2.5 ng.kg-1.min-1. Intravertebral ANG II produced dose-related increases in BP that were generally accompanied by increases in heart rate. Intracarotid angiotensin also increased BP but did not change heart rate. Intracarotid ANG II stimulated drinking and, at the highest dose only, increased the secretion of vasopressin, ACTH, and corticosteroids. Intravertebral and intracarotid ANG II suppressed plasma renin activity (PRA). In a parallel series of experiments, the effects of intravenous ANG II, in doses of 2, 5, 10, and 20 ng.kg-1.min-1, were studied. These infusions produced dose-related increases in BP and water intake and suppressed PRA. Only the highest dose of ANG II increased vasopressin or corticosteroid secretion. Analysis of these results in terms of calculated or measured changes in plasma ANG II concentration indicate that the central cardiovascular and dipsogenic actions of angiotensin, as well as the suppression of PRA, can be elicited by concentrations of the peptide that are within the physiological range. On the other hand high, probably supraphysiological, levels of ANG II are required to increase vasopressin or ACTH secretion.
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PMID:Analysis of the actions of angiotensin on the central nervous system of conscious dogs. 628 22

To assess the function of the final step of the pathway for aldosterone biosynthesis, the responsiveness of plasma 18-hydroxycorticosterone and aldosterone concentrations to angiotensin II infusion was studied in 14 patients with nonazotemic diabetes mellitus as compared with 14 normal controls approximately matched for sex and age. In addition, the responses of both steroids to corticotropin injection were investigated in the diabetic patients. Under basal conditions, plasma aldosterone levels were slightly lower in the patients than in normal controls, while plasma 18-hydroxycorticosterone concentrations were similar in the two study groups. Angiotensin II induced marked and comparable increases in plasma 18-hydroxycorticosterone and aldosterone levels in normal and diabetic subjects. Plasma 18-hydroxycorticosterone and aldosterone levels before and after angiotensin II infusion were significantly interrelated; this correlation was similar in normal subjects (r = 0.61; P less than 0.001) and diabetic patients (r = 0.51; P less than 0.005). Plasma 18-hydroxycorticosterone and aldosterone were significantly increased by corticotropin in the patients. These findings indicate that the terminal step of aldosterone biosynthesis, which involves the production of 18-hydroxycorticosterone and aldosterone, is largely unaltered in patients with nonazotemic diabetes mellitus.
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PMID:Responsiveness of plasma 18-hydroxycorticosterone and aldosterone to angiotensin II or corticotropin in nonazotemic diabetes mellitus. 629 99

The in vitro secretion of aldosterone and corticosterone by the adrenal glands of fetal (day 30), pregnant and non-pregnant rabbits was examined under basal and stimulated conditions. In general, non-pregnant animals basally secreted less aldosterone than either pregnant or fetal rabbits, whereas basal corticosterone secretion by pregnant animals exceeded that of either fetal or non-pregnant animals. At similar doses of adrenocorticotropin (ACTH), fetal and pregnant adrenal glands produced comparatively more aldosterone than non-pregnant animals, while corticosterone secretion was accelerated to a greater degree in fetal rabbits than in the other groups. Angiotensin II had its greatest effect on the aldosterone secretory rates of fetal and non-pregnant animals without affecting corticosterone secretion in any group. Elevated potassium (K+) enhanced the secretory rates of aldosterone and corticosterone in fetal animals, while increasing only aldosterone secretion in non-pregnant rabbits. Serotonin accelerated aldosterone secretion in all animals, whereas it increased corticosterone secretion only in non-pregnant animals. These results suggest that (1) in fetal rabbits, the secretory rates of both aldosterone and corticosterone are regulated primarily by ACTH and to a much lesser extent by angiotensin II and K+, (2) the corticosterone secretory rates of pregnant and non-pregnant rabbits are controlled mainly by ACTH, and (3) aldosterone secretion by non-pregnant animals is regulated primarily by angiotensin II and secondarily by ACTH and K+, while in pregnant animals ACTH may be the primary regulator of aldosterone secretion as it is in the fetus.
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PMID:Comparative in vitro responses of fetal, pregnant and non-pregnant rabbits' adrenal glands to steroidogenic agents. 630 96


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