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)

The biologically active PTH fragment 1-34 induces mononuclear leukocytes to produce a substance(s) capable of increasing bone resorption, as assayed in an organ culture system. The onset of the effect is evident at 2 days and lasts at least 7 days. The cell responsible for this effect appears to be an activated nonadherent lymphocyte (probably T-cell). PTH-(1-34) induces these cells to secrete this factor(s). The presence of adherent mononuclear leukocytes or appropriate conditioned medium appears to augment this response. Secretion of this factor(s) is specific for PTH-(1-34); it is not induced by biologically inactive PTH fragments, nor can it be induced by incubating mononuclear leukocytes with other hormones, including human PRL or lysine vasopressin. On the other hand, PTH-(1-34), human PRL, and lysine vasopressin all activate mononuclear leukocytes, as determined by [3H]thymidine incorporation. Biologically inactive PTH fragments do not. Thus, while lymphocyte activation may be a necessary prerequisite to lymphocyte modulation of bone resorption, it is not sufficient of itself. The PTH fragment 1-34 activates mononuclear leukocytes and specifically induces nonadherent lymphocytes to produce a substance(s) capable of increasing bone resorption. Preliminary characterization of this substance(s) shows that cellular components of the organ culture are necessary to demonstrate the increased resorptive capacity of PTH-stimulated lymphocyte supernatants. Secondly, this resorptive capacity is heat sensitive. Finally, this substance(s) appears to have a nominal molecular radius greater than 14,000 daltons, but less than 50,000 daltons.
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PMID:Parathyroid hormone-lymphocyte interactions modulate bone resorption. 376 72

alpha MSH is present in high concentrations in the intermediate lobe of the fetal pituitary and has been implicated as a regulator of fetal adrenal steroidogenesis and fetal growth. However, there are few data regarding alpha MSH levels in fetal plasma or the control of fetal alpha MSH secretion. We measured alpha MSH immunoactivity in the plasma of chronically catheterized fetal lambs (gestational age, 116-138 days), newborn lambs, and adult sheep both in the baseline state and after dopamine receptor blockade with metoclopramide. The effect of metoclopramide on the release of another proopiomelanocortin-derived peptide, N-acetyl-beta-endorphin (N-acetyl-beta EP), which is synthesized together with alpha MSH in the intermediate lobe, was also studied. Baseline fetal plasma alpha MSH was significantly greater than maternal alpha MSH [35.6 +/- 2.2 (+/- SEM) vs. 10.0 +/- 1.0 pg/ml]. In eight studies in five fetal lambs, alpha MSH rose to a peak level of 121 +/- 23 pg/ml 15 min after metoclopramide administration to the fetus. Simultaneous maternal alpha MSH levels did not change, suggesting that the alpha MSH in fetal plasma was of fetal pituitary origin. Gel filtration of pooled fetal plasma extracts revealed that the alpha MSH immunoactivity eluted in the same position as the alpha MSH standard. Metoclopramide caused the secretion of nearly equimolar amounts of alpha MSH and N-acetyl-beta EP into fetal plasma. In four fetal lambs, basal N-acetyl-beta EP levels of 156 +/- 34 pg/ml rose to 305 +/- 65 pg/ml 15 min after metoclopramide treatment. Metoclopramide also stimulated plasma alpha MSH in newborn and adult sheep. In six newborn lambs, alpha MSH rose from 45.2 +/- 13 to 211 +/- 38 pg/ml 15 min after metoclopramide treatment, whereas in four adult sheep, a basal alpha MSH level of 11.1 +/- 2.2 pg/ml rose to 20.1 +/- 2.7 pg/ml 15 min after metoclopramide. In addition, metoclopramide stimulated fetal and neonatal PRL secretion, but had no effect on plasma vasopressin concentrations or acid-base and blood gas values. These studies indicate that immunoreactive alpha MSH and N-acetyl-beta EP are secreted into ovine fetal plasma and that the secretion of these peptides in the fetus appears to be under tonic dopamine inhibition, as is the case in the adult sheep and newborn lamb.
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PMID:Dopaminergic regulation of alpha-melanocyte-stimulating hormone and N-acetyl-beta-endorphin secretion in the fetal lamb. 380 22

Two unrelated boys (C.C. 13 years; J.W. 18 years) presenting with early puberty and episodes of aggressive behaviour were found to have hypernatraemia and hypodipsia. Plasma vasopressin (AVP) levels were inappropriately low in relation to plasma osmolality, but the patients did not have diabetes insipidus since 24 h urinary volumes were less than 1 litre and the maximal urinary osmolality was 1232 in C.C. and 950 in J.W. Plasma renin activity was elevated (greater than 2000 mg AI/1/h) although aldosterone concentrations were normal. Excretion of a water load (20 ml/kg) was delayed, but plasma renin and aldosterone fell with increased naturesis. An infusion of 0.85 mol/l saline produced a rise in AVP in C.C. but not in J.W. Insulin and hypotension resulted in the release of AVP in both boys suggesting a selective defect of osmoreceptor function. Hyperprolactinaemia and an exaggerated PRL response to TRH were also noted but no intracranial lesion was demonstrable on CT scan. These boys appear to have a hypothalamic syndrome with early puberty, hyperprolactinaemia, hypodipsia and osmoreceptor dysfunction which may be associated with aggressive behaviour.
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PMID:Lack of thirst, osmoreceptor dysfunction, early puberty and abnormally aggressive behaviour in two boys. 398 68

The widespread occurrence of opioid peptides and their receptors in brain and periphery correlates with a variety of actions elicited by opioid agonists and antagonists on hormone secretion. Opioid actions on pituitary and pancreatic peptides are summarized in Table 1. In rats opioids stimulate ACTH and corticosterone secretion while an inhibition of ACTH and cortisol levels was observed in man. In both species, naloxone, an opiate antagonist, stimulates the release of ACTH suggesting a tonic suppression by endogenous opioids. In rats, a different stimulatory pathway must be assumed through which opiates can stimulate secretion of ACTH. Both types of action are probably mediated within the hypothalamus. LH is decreased by opioid agonists in many adult species while opiate antagonists elicit stimulatory effects, both apparently by modulating LHRH release. A tonic, and in females, a cyclic opioid control appears to participate in the regulation of gonadotropin secretion. Exogenous opiates potently stimulate PRL and GH secretion in many species. Opiate antagonists did not affect PRL or GH levels indicating absence of opioid control under basal conditions, while a decrease of both hormones by antagonists was seen after stimulation in particular situations. In rats, opiate antagonists decreased basal and stress-induced secretion of PRL. Data regarding TSH are quite contradictory. Both inhibitory and stimulatory effects have been described. Oxytocin and vasopressin release were inhibited by opioids at the posterior pituitary level. There is good evidence for an opioid inhibition of suckling-induced oxytocin release. Opioids also seem to play a role in the regulation of vasopressin under some conditions of water balance. The pancreatic hormones insulin and glucagon are elevated by opioids apparently by an action at the islet cells. Somatostatin, on the contrary, was inhibited. An effect of naloxone on pancreatic hormone release was observed after meals which contain opiate active substance. Whether opioids play a physiologic role in glucose homeostasis remains to be elucidated.
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PMID:Endocrine actions of opioids. 608 80

A complete endocrinological exploration was performed in a 23 year old male patient who presented clinical signs of an acquired panhypopituitarism which appeared two months after a severe head trauma, in order to determine whether the deficit lay in the hypothalamus or in the pituitary. TSH had normal basal levels, but presented a delayed rise after TRH administration. PRL rose normally after TRH administration, but presented a blunted response to both metoclopramide and insulin tolerance test. Cortisol rose significatively after lysine vasopressin, but failed to rise during insulin hypoglycaemia. These results are consistent with a hypothalamic defect. Extensive endocrinological data are often lacking in the few similar cases reported in the literature. Prl and TSH were usually found to have normal basal levels while other pituitary hormones were profoundly lowered. This was interpretated as a pituitary defect with some intact areas of the anterior lobe. However, this may also suggest a hypothalamic defect which could have been assessed by mor discriminative tests.
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PMID:Panhypopituitarism secondary to head trauma: evidence for a hypothalamic origin of the deficit. 624 99

Pituitary adenomas were obtained from eight of nine patients with Cushing's disease, and the surrounding tissues as well were obtained from six of nine patients. ACTH, beta-lipotropin (beta-LPH), beta-endorphin, GH, TSH, LH, and PRL concentrations in these tissues were determined by RIA. Immunoreactive ACTH and beta-endorphin (beta-endorphin + beta-LPH) were present in high concentrations in all adenomas, and low concentrations were found in the surrounding tissues, except for one patient. As compared to levels seen in normal pituitary tissue, the GH concentration in the surrounding tissues was suppressed in five of six cases. TSH and LH concentrations were suppressed in four and three cases, respectively. The PRL concentration was not suppressed in any of the six patients studied. These four hormones were not detected in any adenoma. Plasma GH, TSH, and LH responses to various stimuli which were suppressed preoperatively returned to normal in most of the patients after adenomectomy. Basal plasma cortisol concentrations were normal or subnormal and were suppressed by the administration of 1 mg dexamethasone after adenomectomy, in contrast to the lack of such suppression preoperatively. ACTH and beta-endorphin secretion were stimulated by lysine-8-vasopressin and suppressed by dexamethasone and cyproheptadine in vitro.
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PMID:Anterior pituitary hormones in plasma and pituitaries from patients with Cushing's disease. 625 28

An 8-yr-old girl is presented who had periodic attacks of vomiting, psychotic depression, drowsiness, and hypertension (160/110 mm Hg) for a period of 16 months after head injury. At the initiation of the attack, serum ACTH and vasopressin levels were prominently increased (610 pg/ml and 41 microunits/ml, respectively), followed by hypercortisolemia, hyponatremia, and hypoosmolality in plasma. Serum PRL also was elevated (91 ng/ml). Responses of GH and cortisol to insulin-induced hypoglycemia and those of TSH to TRH were reduced. Urinary excretion of epinephrine and norepinephrine were increased, while dopamine (DA) excretion was reciprocally decreased, resulting in a marked elevation of the epinephrine plus norepinephrine to DA ratio during the episodes (0.4-4.5); this was normalized on attack-free days (0.08-0.25). During the attack, the concentration of homovanillic acid, a major metabolite of DA in the brain, also was reduced in cerebrospinal fluids from 70 to 23 ng/ml. The administration of methyl-dopa and reserpine effectively suppressed the recurrence of the episode. Although the exact cause of this syndrome is unknown, a periodic metabolic dysfunction of catecholamine in the central nervous system might be postulated.
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PMID:A syndrome of periodic adrenocorticotropin and vasopressin discharge. 627 29

The effect of D-Ala2, MePhe4, Met-(0)enkephalinol (Sandoz FK 33-824; 0.5 mg, im) on pituitary hormone secretion was studied in 11 patients with Addison's disease and 11 patients with ACTH-dependent Cushing's disease. In patients with Addison's disease, a pronounced fall of plasma ACTH levels was observed (P less than 0.005). The ACTH response to FK 33--824 was partially reversed by naloxone (4 mg, iv). In patients with Cushing's disease, no unequivocal decrease in either ACTH or cortisol was seen. Moreover, FK 33--824 failed to influence the vasopressin-induced ACTH increase in 5 patients with Cushing's disease. In patients with cortisol deficiency due to either Addison's disease or bilateral adrenalectomy for Cushing's disease, FK 33--824 led to increases in PRL and GH similar to those described in normal subjects. However, in the presence of longstanding hypercortisolism, the PRL increase was significantly diminished, and the GH response to FK 33--824 was completely abolished. Our results suggest that in Addison's disease ACTH release is influenced by inhibitory opiate receptors. In patients with Cushing's disease, ACTH secretion is insensitive to FK 33-284, presumably because of an autonomous pituitary adenoma or hypothalamic derangement. The impairment of the PRL and GH responses to FK 33--824 in Cushing's syndrome seems to reflect a direct action of the elevated cortisol level, for it is not seen after bilateral adrenalectomy.
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PMID:Effects of a met-enkephalin analog on adrenocorticotropin (ACTH), growth hormone, and prolactin in patients with ACTH hypersecretion. 628 Dec 97

The 41-residue ovine corticotropin releasing factor (CRF) was administered iv and intracerebroventricularly (icv) to merino sheep. A significant rise in plasma ACTH, beta-lipotropin (beta LPH) and cortisol was demonstrated after the administration of 200 micrograms, iv. A highly significant correlation between the increments in plasma ACTH and beta LPH was observed. The plasma ACTH rise was evident within 5 min and was abolished by the prior administration of 0.4-4.0 mg dexamethasone. No significant rise in plasma GH, LH, PRL, insulin, glucagon, pancreatic polypeptide, met-enkephalin, angiotensin II, aldosterone, or vasopressin could be demonstrated. Although smaller doses of CRF (50 ng to 5 micrograms) were effective when given icv, the ACTH response was more delayed. It is concluded that CRF stimulates a rapid increase in the secretion of ACTH and beta LPH in sheep. Suppression of this response by dexamethasone indicates that glucocorticoids are capable of acting on the pituitary to inhibit the ACTH response to CRF. The delayed response when CRF is given icv may be due to diffusion. The action of CRF appears to be relatively specific, in that the plasma concentrations of the other pancreatic, pituitary, and adrenal hormones measured were not affected.
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PMID:The hormonal actions of corticotropin-releasing factor in sheep: effect of intravenous and intracerebroventricular injection. 630 69

The effect of hyperprolactinemia on central catecholamine biosynthesis and anterior pituitary hormone release was studied using an in vitro methodology. The incorporation of [3H]tyrosine into hypothalamic and neurohypophyseal catecholamines was determined using a new method which combines high performance liquid chromatography (HPLC) with amperometric detection (LCEC). Elevated plasma prolactin levels, induced by pituitary transplants, resulted in increased in vitro biosynthesis of medial basal hypothalamic (MBH) dopamine (DA), but not norepinephrine (NE). Neurohypophyseal DA biosynthesis (including the intermediate lobe) was not affected. Plasma LH levels were depressed by hyperprolactinemia although the content of hypothalamic luteinizing hormone-releasing hormone (LHRH) was not changed. In parallel studies, the anterior pituitaries from these animals were incubated in vitro using a paired-half technique and LH and PRL release measured. While the basal release of prolactin was not altered by hyperprolactinemia, LH release was significantly decreased. Gonadotroph responsiveness to LHRH was significantly increased, while the inhibition of prolactin by dopamine was not altered. There was a decrease in pituitary prolactin content with normal LH levels. These experiments confirm several in vivo reports which show that hypothalamic dopaminergic but not noradrenergic activity is increased by prolactin. This action is specifically localized in the tuberoinfundibular dopaminergic neurons. Furthermore, these experiments suggest that these central changes result in alterations in both gonadotroph and mammotroph function.
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PMID:Hypothalamic catecholamine biosynthesis and pituitary gonadotropin secretion in vitro: effect of hyperprolactinemia. 634 57

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