UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A sensitive bioassay for the measurement of plasma ACTH is presented. The use of silicic acid adsorption of plasma, with a subsequent acid wash and aqueous acetone desorption, was successful in removing those substances which had interfered with the steroidogenic response of dispersed adrenal cells when unextracted plasma was employed. This extraction procedure extracted 72-76% of ACTH present in plasma. Two pg ACTH1-39 could be consistently detected. Alpha-hACTH1-39 and alpha-pACTH1-39 exhibited equal potencies. Beta-MSH was ineffective at dosage levels up to 2 x 10(8) pg. One x 10(8) pg of ACTH1-10, ACTH4-10, or alpha-MSH had a steroidogenic effect equivalent to that of 40 pg ACTH1-39. ACTH 17-39 and ACTH 11-24 were incapable of stimulating steroid production at doses of 1 x 10(8) pg. Excesses of the latter, but not of the former appeared to be able to antagonize the steroidogenic effect of ACTH1-39. Plasma from normal subjects, bioassayed by this extraction procedure, contained 12-186 pg/ml ACTH at 0400-0800: 14-93 pg/ml ACTH at 1000-1300, and less than 10-34 pg/ml ACTH at 1600-2200. Hypoglycemia and vasopressin administration were followed by increases in plasma ACTH concentratrations. Plasma ACTH concentrations in untreated patients with Cushing's disease (sampled over the period 0900-1300) ranged from 65-220 pg/ml. Three patients with Addison's disease (untreated or 12 h following replacement steroid withdrawal) had ACTH concentrations of 223, 370 and 1226 pg/ml. Markedly elevated ACTH concentrations were observed in a patient with Nelson's syndrome (391 and 835 pg/ml). Bioassayable ACTH was not detected in 2 patients with panhypopituitarism.
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PMID:A sensitive bioassay for the determination of human plasma ACTH levels. 16 19

The response of plasma ACTH and/or cortisol concentrations to thyrotropin-releasing-factor (TRF), vasopressin, and insulin administration was determined in 5 patients with Nelson's syndrome and 12 patients with untreated Cushing's disease. TRF administration was associated with a mean increment of 267 pg/ml in plasma ACTH concentrations in patients with Nelson's syndrome, and of 42 pg/ml in patients with Cushing's disease. The increment in plasma cortisol concentrations in the latter group was 12 mug%. No ACTH or cortisol response was observed in normal subjects. Patients with Cushing's disease or Nelson's syndrome exhibited significantly greater increments in plasma ACTH concentrations in response to vasopressin administration (P less than .05, P less than .02 respectively) than did normal subjects; the increment in cortisol concentration was also greater, (P less than .05), in patients with Cushing's disease than in normal subjects. No significant difference was present between patients with Cushing's disease and Nelson's syndrome with regard to the magnitude of the ACTH response to vasopressin administration. In contrast, the increment in plasma cortisol and plasma ACTH concentrations following insulin induced hypoglycemia was significantly less in patients with Cushing's disease than seen in normal subjects, (P less than .001, P less than .05 respectively); while this stimulus was associated with a significantly greater increment in plasma ACTH concentrations in patients with Nelson's syndrome as compared to that seen in normal subjects, (P less than .01) and in patients with Cushing's disease (P less than .01). These findings indicate that pituitary function in patients with Nelson's syndrome is not autonomous and suggest the possibility that altered central nervous regulatory mechanism might play a role in the etiology of the pituitary tumors which are frequently associated with this syndrome. The TRF induced rise in plasm cortisol and ACTH concentrations in patients with Cushing's disease and Nelson's syndrome suggests the possibility of altered hypothalamic or pituitary receptors in such patients.
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PMID:Plasma ACTH and cortisol responses to TRF, vasopressin or hypoglycemia in cushing's disease and nelson's syndrome. 19 Feb 54

Tumors of the female genital tract may be associated with a variety of unusual clinical manifestations. Uncommon endocrine and paraendocrine syndromes include production of human chorionic gonadotropin by tumors other than those of germ cell origin, hyperthyroidism associated with struma ovarii and gestational trophoblastic disease, the carcinoid syndrome, the Zollinger-Ellison syndrome, hypercalcemia, Cushing's syndrome, hypoglycemia, hypertension related to renin or aldosterone production, hyperprolactinemia, inappropriate secretion of antidiuretic hormone, and virilization associated with Nelson's syndrome and placental site trophoblastic tumor. Paraneoplastic syndromes associated with gynecological tumors include disorders of the nervous system, connective tissue, and skin, as well as hematologic abnormalities and the nephrotic syndrome. Heritable and other congenital syndromes associated with these tumors are the Peutz-Jeghers syndrome, the nevoid basal-cell carcinoma syndrome, Ollier's disease and Maffucci's syndrome, hereditary leiomyomatosis, ataxia-telangiectasia, von Hippel-Lindau's disease, thyroid abnormalities associated with Sertoli-Leydig cell tumors, and Carney's complex. Other syndromes associated with tumors of the female genital tract include Meigs' syndrome, hyperamylasemia, uveal melanocytic lesions, and pyrexia.
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PMID:Clinical syndromes associated with tumors of the female genital tract. 175 57

The effects of cortisol, its steric analog 11-epicortisol, and lysine vasopressin (LVP) on DNA and RNA synthesis in isolated adrenocorticotropic hormone-secreting human pituitary tumor cells obtained by transsphenoidal surgery were studied using [3H]thymidine incorporation in DNA and [3H]uridine in RNA. Cortisol suppressed RNA and, to a greater extent, DNA synthesis in these cells. This could explain the slow growth of pituitary tumors in patients with Cushing's disease and the rapid growth of Nelson's pituitary tumors after bilateral adrenalectomy. 11-Epicortisol also suppressed RNA synthesis, but it had a stimulatory effect on DNA synthesis, which indicates a high specificity of glucocorticoid receptors. When applied together with cortisol, 11-epicortisol antagonized the suppressive effects of cortisol on DNA synthesis. Although LVP stimulated RNA synthesis, it suppressed DNA synthesis in most of the tumor cells.
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PMID:The effects of cortisol, 11-epicortisol, and lysine vasopressin on DNA and RNA synthesis in isolated human adrenocorticotropic hormone-secreting pituitary tumor cells. 215 95

It may sometimes be difficult to distinguish Cushing's disease from ectopic ACTH syndrome. A case is described here of a patient with a Cushing's syndrome and diagnostic difficulties. Initial features were consistent with a Cushing's disease (in particular metopirone test was positive). Because of relapse of hypercortisolism after mitotane therapy, total adrenalectomy was performed. Thereafter features occurred that evoked Nelson's syndrome, including high plasma ACTH levels and a pituitary mass syndrome. Pituitary reserve testings by vasopressin or corticotropin-releasing factor were positive, although inconstantly, in that plasma ACTH increased. A lung tumor was discovered about 20 yr after the first clinical signs of hypercortisolism. Its removal led to the discovery of a bronchial carcinoid tumor and was followed by normalization of plasma ACTH levels. An analysis of proopiomelanocortin-related peptides was performed postoperatively on the blood drawn before and after the tumor resection and on the tumor; the results of this study would have been contributive to the diagnosis of occult ectopic ACTH tumor. In conclusion this case demonstrates the limitations of the conventional procedures in the diagnosis of the ectopic ACTH syndrome. At contrast the newer biochemical procedures may be very useful in determining the type of hypercortisolism.
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PMID:A case of pseudo-Nelson's syndrome: cure of ACTH hypersecretion by removal of a bronchial carcinoid tumor responsible for Cushing's syndrome. 217 23

To characterize the functional aspect of prolactin (Prl) cells coexisting with corticotroph adenomas, pituitary adenoma cells obtained from a patient with Cushing's disease and a patient with Nelson's syndrome, who were associated with hyperprolactinaemia, were cultured in monolayer and their Prl responses to various secretagogues were compared with those of prolactinoma cells in culture. Immunohistochemistry performed in one of these two adenomas demonstrated the presence of Prl-containing cells in addition to ACTH cells. When ACTH-Prl adenoma cells were exposed to ovine corticotrophin-releasing factor (CRF), a dose-dependent increase in both ACTH and Prl secretion was observed, which was blocked by coincubation with hydrocortisone. In contrast, no stimulatory effect of CRF on Prl release was observed in all of the experiments using prolactinoma cells. Thyrotrophin-releasing hormone, which consistently stimulated Prl secretion in ACTH-Prl adenomas, was effective in triggering Prl release in only 25% of the prolactinomas. Exposure of the cultured cells to lysine vasopressin, growth hormone-releasing factor and vasoactive intestinal peptide resulted in an increase in ACTH and Prl secretion in one ACTH-Prl adenoma, however, none of the prolactinomas responded to these stimuli to secrete Prl. Dopamine and somatostatin, on the other hand, uniformly suppressed Prl secretion from ACTH-Prl adenomas as well as from prolactinoma cells. These results suggest that the mode of Prl secretion by mixed ACTH-Prl pituitary adenomas is not identical to that by pure prolactinomas and is, at least in part, common to that of ACTh secretion.
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PMID:Prolactin secretion by mixed ACTH-prolactin pituitary adenoma cells in culture. 285 25

A 61 year old Japanese man with a diagnosis of Addison's disease was admitted to Kyushu University Hospital for further investigation of high ACTH levels and hyperpigmentation which 37.5 mg of cortisone acetate failed to alleviate. The basal level of plasma ACTH was 700-1000 pg/ml, and following 25-37.5 mg cortisone acetate or 1 mg dexamethasone the levels were 300-600 pg/ml. The general pigmentation showed little improvement with such medication. Radiographic studies revealed a double floor of the sella turcica and cisternal herniation. These observations suggested the existence of a pituitary ACTH-secreting tumour. Plasma ACTH showed a circadian rhythm ranging from 440 to 1570 pg/ml and it was not suppressed to a normal range by oral administration of dexamethasone, 8 mg/day or by continuous infusion of dexamethasone, 1.25 mg/h for 2 h. Plasma ACTH responses of 80% above basal level to lysine-vasopressin (LVP), and 12% above basal to synthetic ovine corticotrophin releasing factor (CRF) were observed. FK 33-824, a methionine-enkephalin analogue, suppressed plasma ACTH to 85% of basal level, while bromocriptine (CB-154) caused no significant change. These findings led to a diagnosis of pituitary ACTH-secreting adenoma (corticotropinoma) in association with Addison's disease. The persistent circadian rhythm of plasma ACTH suggested that this adenoma may not be completely free from regulation by the central nervous system. This case may be clinically significant for investigation of the pathogenesis of pituitary adenoma, particularly in Nelson's syndrome.
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PMID:Probable ACTH-secreting pituitary tumour in association with Addison's disease. 299 36

The circulating levels of ACTH and alpha-melanocyte stimulating hormone (alpha-MSH) were measured in 9 patients with Nelson's syndrome after the administration of saline, ovine corticotrophin releasing factor (oCRF), bromocriptine or TRH. The concentrations of ACTH were grossly elevated and alpha-MSH levels ranged from undetectable to higher than the normal range. In seven of eight subjects there was a rapid corticotrophic response, but no change in the alpha-MSH level, following oCRF. This response was delayed in one subject. Following oCRF injection, the plasma oCRF profile was variable but circulating oCRF was detectable even at the end of the experiment in all cases. There was no significant change in circulating ACTH or alpha-MSH following either bromocriptine or TRH. Cultured tumour cells from one case of Cushing's disease showed a corticotrophic response but no change in alpha-MSH to oCRF and the response was enhanced by vasopressin. Bromocriptine added to the same tumour depressed ACTH secretion without affecting the output of alpha-MSH. The present data suggest that the tumours in these subjects are responsive to oCRF and arise from corticotrophs rather than melanotrophs.
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PMID:The effect of ovine corticotrophin releasing factor (oCRF), bromocriptine and TRH on the secretion of ACTH and alpha-MSH in Nelson's syndrome and Cushing's disease. 302 73

In 14 cases of ACTH-producing pituitary adenomas (8 cases of Cushing's disease and 6 cases of Nelson's syndrome) dispersed cells prepared from adenoma tissue were incubated in a superfusion or static incubation system and investigated for ACTH, beta-endorphin (beta-EP) and beta-lipoprotein (beta-LPH) production. Effects of cortisol and lysine vasopressin (LVP) were evaluated. During the superfusion a qualitatively parallel secretory pattern is obtained for all hormones. Quantitatively, however, the response to LVP stimulation is more pronounced for beta-endorphin-like immunoreactivity (beta-LPH/beta-EP-IR) causing ACTH/beta-LPH/beta-EP-IR ratios to change throughout single experiments. beta-EP/beta-LPH ratios, however, which were estimated by means of Sephadex G-50 gel chromatography at various key points of the superfusion, were constant for each tumor, although variable between different adenomas, ranging from 0.68 to 2.0. The results suggest neither a differential control for the secretion of the peptides investigated within individual tumors nor a direct effect of cortisol or LVP on pro-opiomelanocortin processing. Summarizing clinical data and in vitro findings such as secretory behavior or hormone ratios, we can find no characteristic differences between Nelson's syndrome and Cushing's disease.
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PMID:In vitro secretion of pro-opiomelanocortin (POMC) derived peptides in human ACTH-producing pituitary adenomas: evaluation of hormone ratios in different functional states. 609 71

To elucidate the regulation of secretion of beta-endorphin in Nelson's syndrome, both ACTH and beta-endorphin were measured using RIA. We found that beta-endorphin and ACTH were secreted concomitantly in responses to the administration of lysine-8-vasopressin and TRH. Conversely, the administration of somatostatin to this patient reduced the secretion of both beta-endorphin and ACTH. Thus, beta-endorphin is probably secreted cooredinately with ACTH in patients with Nelson's syndrome.
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PMID:Plasma beta-endorphin responses to somatostatin, thyrotropin-releasing hormone, or vasopressin in Nelson's syndrome. 624 30

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