Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01178 (oxytocin)
 15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Specific, homologous human neurophysin I and II radioimmunoassays were established and used to measure the individual, immunoreactive neurophysin concentrations in human plasma. Circulating levels of human neurophysin I in normal individuals were less than 1 ng/ml and neurophysin II levels were 1-2 ng/ml. During dehydration, there was a significant rise in plasma neurophysin I, together with an increase in neurophysin II. Haemorrhage also was associated with a rise in plasma neurophysin I and II, but the percent increase was greater for I than II. In two subjects in whom nicotine inhalation caused a rise in plasma neurophysin I, there was no detectable increase in plasma neurophysin II. These stimuli which have been reported to release vasopressin from the posterior pituitary also are associated with the differential release of neurophysin I. Plasma neurophysin II levels could more clearly be shown to rise independently of plasma neurophysin I during events thought to be related to oxytocin release. Plasma neurophysin II levels were significantly elevated in women taking oral contraceptives. Similarly during pregnancy there was a progressive rise in plasma neurophysin II concentration which was proportional to the period of gestation. Plasma neurophysin II concentrations in seven of fifteen nursing women rose significantly during suckling. There was no detectable change in plasma neurophysin I concentrations during any of these events. Plasma neurophysin I and II levels were both significantly elevated in fourteen patients with chronic renal failure and rose over haemodialysis, suggesting that the kidney may be the major route of clearance of the neurophysins. In humans the independent release of neurophysin II was associated with stimuli thought to release oxytocin, but neurophysin I showed only a differential release compared to neurophysin II in vasopressin stimulated events.
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PMID:Individual neurophysin concentrations in the pituitary and circulation of humans. 45 40

In adrenalectomized rats, histochemical and immunohistochemical properties of the following secretion products have been investigated: 1. CRF-granules in the outer layer of the median eminence; 2. neurosecretory material (NSM) in the supraoptico-hypophysial system of the hypothalamus; 3. secretory granules in the TSH-cells of the anterior lobe of the hypophysis; 4. secretory granules in the ependymal cells of the subcommissural organ (SCO); 5. beta-cell-granules in the islets of Langerhans in the pancreas. All these substances are characterized by their stainability with the so-called "Gomori method". The experiments have included studies into: a) the extractability of the substances by various solvents; b) the digestability of the substances by pepsin or trypsin; c) their histochemically detectable content of disulfide groups, arginine and periodic acid-Schiff (PAS) reactive carbohydrates; d) their reaction with porcine-neurophysin-II-antibodies. All substances exhibited a positive reaction for disulfide groups. Based on their solubility properties, their resistance to pepsin or trypsin, their respective content of PAS-reactive carbohydrates and their failure to react with anti-neurophysin serum the "Gomori-positive" granules in TSH-, SCO- and pancreatic beta-cells can be distinguished from one another and from CRF- and neurosecretory granules. In contrast, CRF-granules and NSM showed identical properties. Taking into consideration data from the biochemical and histochemical literature, the present findings suggest that CRF-granules and NSM consist of closely related biochemical substances.
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PMID:Histochemical and immunohistochemical properties of the CRF-granules and other "Gomori-positive" substances of the rat. 76 9

The potency of oxytocin (OT) in evoking ACTH secretion by isolated, superfused rat adenohypophyseal corticotrophs and its enhancement by CRF and arginine vasopressin (AVP) were analyzed. Each secretagogue effectively released ACTH from adenohypophyseal cells when added separately in pulsatile fashion in physiological concentrations based on hypophyseal portal blood (OT, 10 nM; AVP, 0.5 nM; CRF, 0.1 nM). OT released ACTH at concentrations as low as 1 nM. Moreover, a dose-response relationship up to 10 microM was revealed. Combinations of a constant amount of CRF (0.1 nM) with increasing concentrations of OT exerted a synergistic effect on ACTH release. In contrast, OT given in various concentrations in combination with AVP (0.5 nM) produced an additive effect on ACTH release. To study the mechanism of action of OT on ACTH secretion, cytosolic free calcium levels in single pituitary cells exposed to OT or AVP were measured using the calcium-sensitive fluorescent indicator Fura-2. Corticotrophs among mixed adenohypophyseal cell types in the primary cultures were identified by immunocytochemistry. More than 500 cells were individually stimulated with OT or AVP. Basal cytosolic free calcium levels ranged between 80-130 nM free calcium. The addition of 100 nM OT or 1 microM AVP increased the cytosolic free calcium concentration within 3 sec to values ranging from 500-800 nM. An increase in intracellular calcium ranging from 200-500 nM due to OT could still be observed after extracellular calcium depletion. Taken together, our data demonstrate that physiological concentrations of OT stimulate ACTH secretion, independent of the other ACTH secretagogues, by mobilizing calcium mainly from intracellular stores.
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PMID:Oxytocin at physiological concentrations evokes adrenocorticotropin (ACTH) release from corticotrophs by increasing intracellular free calcium mobilized mainly from intracellular stores. Oxytocin displays synergistic or additive effects on ACTH-releasing factor or arginine vasopressin-induced ACTH secretion, respectively. 131 49

The discovery of the various peptide factors in the gonads followed different paths. A number of factors were specifically searched for because of physiological experiments that predicted that an activity from the gonads was necessary to explain phenomena. Such was the case for gonadal steroids and for such peptide factors as inhibin, MIS, OMI, FRP, seminal plasma inhibin, relaxin, PA factor and other proteases, and ABP. In the process other factors such as activin and follistatin were serendipitously discovered. A second group of factors was discovered because in vitro experiments of various combinations of gonadal cell types failed to replicate in vivo findings, suggesting missing signals. Such substances are the panoply of growth factors aiding in differentiation and growth promotion and inhibition: LS and LI, P-Mod-S, clusterin, and various components of the ECM. Finally, and most recently, another set of peptides has been identified because immunological or molecular probes have been used to search gonadal tissue for factors originally discovered elsewhere; these include POMC, GnRH-like peptide, oxytocin, AVP, angiotensin, ANF, CRF, neural peptides, and c-mos. Our understanding of the relationship of most of these peptides to the local signals necessary for gonadal function is still very elementary. Clearly some like relaxin and inhibin function as important hormones, and ABP, for example, probably functions importantly in transporting testosterone down the tubule. Most local paracrine or autocrine peptide signals appear to act in relationship to gonadotropin levels probably in local differentiation in the process of gamete maturation, but this is only conjecture at this point. No experimental verification that any of these factors is involved in follicle selection for recruitment or for atresia is yet available. For many of the factors local receptors have not yet been identified. The richness of the variety of peptides in the gonads suggests that microanalysis of cell-cell signaling would be rewarding, but at the time of this writing such investigations are not yet possible.
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PMID:Nonsteroidal signals originating in the gonads. 162 34

Numerous cells containing P-450(F-1) were detected in the magnocellular and parvocellular neurons of the paraventricular nucleus of the hypothalamus. Electron microscopic analysis of immunoreactive neurons has shown that P-450(F-1) immunoreactivity is present on the Golgi apparatus and rough endoplasmic reticulum. In the paraventricular nucleus, the P-450(F-1)-positive magnocellular neurons frequently contained oxytocin and some of them also contained CRF. Vasopressin was colocalized with P-450(F-1), but these neurons did not express CRF. In the supraoptic nucleus, P-450(F-1) was colocalized with oxytocin or CRF in single neurons, but not with vasopressin. No cells exhibiting the colocalization of both P-450(F-1) and somatostatin were observed in these nuclei. The results of the present study concerning colocalization of P-450 and peptides suggest that P-450(F-1) is involved in the hypothalamo-hypophyseal neuroendocrine function in the female rat.
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PMID:A sex-specific cytochrome P-450(F-1) colocalized with various neuropeptides in the paraventricular and supraoptic nuclei of female rats. 176 49

Chronically hyponatremic rats were subjected to various stressors in order to evaluate the possible contribution of magnocellular neurons to the regulation of ACTH secretion, since such rats have markedly inhibited secretion and synthesis of magnocellular arginine vasopressin (AVP) and oxytocin (OT). Stress caused by a novel environment or by insulin-induced hypoglycemia resulted in moderate increases in plasma ACTH, which were of similar magnitude in both hyponatremic and normonatremic rats, and these stressors caused no increase in plasma AVP and OT levels in either group of rats. However, when exposed to ether, hyponatremic rats exhibited a significantly blunted ACTH response compared to normonatremic controls (331 +/- 49 vs. 740 +/- 124 pg/ml; P less than 0.01, respectively), and plasma AVP levels were markedly increased in the normonatremic, but not in the hyponatremic, rats. Intravenous infusion of 2 M NaCl also caused an ACTH release in hyponatremic rats that was significantly smaller than that in their normonatremic counterparts (228 +/- 52 vs. 479 +/- 85 pg/ml; P less than 0.05, respectively), and in this case both plasma AVP and OT levels were markedly increased in the normonatremic, but not in the hyponatremic, rats. However, hyponatremic rats exhibited greatly increased plasma ACTH levels 2 and 96 h after adrenalectomy (ADX), which were statistically equivalent to the increases in ACTH levels in normonatremic rats after ADX. Seven days after ADX parvocellular neurons of the paraventricular nucleus showed strongly increased CRF-41 and AVP-neurophysin, but not OT-neurophysin, immunoreactivities in both normonatremic and hyponatremic rats. These results show that parvocellular CRF-41/AVP-producing neurons in the paraventricular nucleus are not inhibited by chronic hyponatremia, in contrast to magnocellular neurons, and suggest that ACTH secretion induced by ether or hypertonic saline, but not by novel environment or insulin-induced hypoglycemia, is partially mediated by magnocellular AVP and/or OT.
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PMID:Hyponatremia-induced inhibition of magnocellular neurons causes stressor-selective impairment of stimulated adrenocorticotropin secretion in rats. 184 2

Arginine vasopressin (AVP), oxytocin (OT), and angiotensin-II (AII) elicit a biphasic ACTH secretory response by perifused anterior pituitary cells consisting of an initial transient (less than 3-min) spike phase and a subsequent sustained plateau phase. In contrast, CRF produces a monophasic sustained plateau type of ACTH secretory response. We have previously demonstrated that 1) influx of extracellular Ca2+ (Cae2+) via L-type voltage-sensitive Ca2+ channels is involved in both the response to CRF and the sustained phase of the response to AVP and OT; 2) release of intracellular Ca2+ (Cai2+) is involved in the spike phase of the response to AVP, OT, and AII; and 3) activation of protein kinase-C is required for the sustained phase, but not for the spike phase, of the response to AVP. CRF action is mediated by activation of protein kinase-A. In this study we further examined the role of Cai2+ by exploiting the fact that a low concentration (1 microM) of ionomycin, a potent Ca2+ ionophore, releases Cai2+ from nonmitochondrial inositol-1,4,5-trisphosphate (IP3)-sensitive Cai2+ stores without causing Cae2+ influx. Pretreatment with ionomycin for 10 min decreased the spike phase of the response to 100 nM AVP, OT, and AII, but had no effect on the response to 10 nM CRF or the sustained phase of the responses to the other agonists. The combination of CRF plus AVP induced a biphasic and synergistic release of ACTH. Ionomycin pretreatment reduced the spike phase, especially the first 1 min, without any effect on the sustained phase. These results indicate that Cai2+ release, but not Cae2+ influx, is involved in the spike phase of the response to AVP, OT, and AII and that Cai2+ is not involved in the synergistic effect of the combination of CRF plus AVP. Having established these relationships, we examined the effect of 2-h perifusion with 100 nM dexamethasone (DEX) on stimulated ACTH release. DEX pretreatment reduced the total response to CRF, the sustained phase of the responses to AVP and OT, and the sustained phase of the synergistic response to CRF plus AVP. However, DEX had no effect on the spike phase of the responses to AVP, OT, or AII or the spike phase of the response to CRF plus AVP. These results indicate that DEX inhibits ACTH release mediated by activation of either protein kinase-A or protein kinase-C, but does not affect inositol-1,4,5-trisphosphate/Cai2(+)-mediated ACTH release.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of intracellular Ca2+ depletion and glucocorticoid on stimulated adrenocorticotropin release by rat anterior pituitary cells in a microperifusion system. 184 62

Bilateral adrenalectomy (ADX) leads to increased ACTH synthesis and secretion. It is thought that endogenous glucocorticoids exert a feedback mechanism at both pituitary and brain levels. The present study has been performed in order to determine the effect of ADX on the release of hypothalamic neuropeptides with corticotropin-releasing activity (CRA) and if there exists a median eminence site of glucocorticoid action to regulate hypothalamic-pituitary-adrenal (HPA) function. Adrenalectomized and sham-operated male rats were killed at different periods after surgery (2, 5, 7 and 14 days) and trunk blood was collected for ACTH and corticosterone (B) concentrations measurement. Brain (median eminence, ME; and medial basal hypothalamus, MBH) and pituitary (anterior lobe, AP; and neurointermediate lobe, NIL) tissues were dissected in order to evaluate either peptide content or in vitro hormone release. The results indicate that ADX blunted plasma B levels and increased AP ACTH content and secretion in a time-related fashion up to the 14th day. ADX significantly decreased both CRF and CRA contents in the ME at all periods studied; ME arginine-vasopressin (AVP) increased 7 and 14 days after ADX. MBH CRF decreased after ADX, but returned to sham value 2 weeks later; similarly, MBH AVP decreased at all periods after ADX. Removal of endogenous glucocorticoids did not vary neither oxytocin (OXY) content in the ME and MBH nor AVP and OXY contents in the NIL. In our superfusion experiments, we found that ADX increased basal AVP release and did not change spontaneous CRF secretion from ME terminals. Dexamethasone (Dxm, 10 nM) diminished AVP but not CRF output by ME tissues from adrenalectomized rats. A direct relationship was found between ME CRF and 28 mM KCl (hK+)-induced CRF release by MEs from adrenalectomized rats. ME fragments from adrenalectomized rats were hyperresponsive to kH+ stimulation of AVP release. Dxm (10 nM) decreased the hK(+)-evoked CRF and AVP release by MEs from adrenalectomized rats. ADX and dexamethasone treatment did not influence basal and hK(+)-elicited ME OXY release. Additionally, a rapid glucocorticoid inhibitory effect on ACTH secretion by isolated AP cells from both sham and adrenalectomized rats was found, and an in vitro corticotrope hyporesponse to 0.63 nM CRF and 9.25 nM AVP stimulation during several days after ADX.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Changes in the hypothalamo-corticotrope axis after bilateral adrenalectomy: evidence for a median eminence site of glucocorticoid action. 184 20

We have assessed the response of plasma oxytocin (OT) to intracerebroventricular CRF-41 in both virgin female and lactating rats. In virgin rats CRF-41 resulted in an increase in plasma OT from 5-30 min after administration. In lactating rats, however, there was a complete abolition of the OT response, even at the highest dose of CRF-41. These data demonstrate another feature of the hormone nonresponsiveness apparent during lactation and suggests that one of the reasons for the lack of stress responses could be a down-regulation of the response to endogenously released CRF-41.
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PMID:Lactation abolishes corticotropin-releasing factor-induced oxytocin secretion in the conscious rat. 198 58

To investigate the feedback effects of corticosterone on the secretion of corticotrophin-releasing factor-41 (CRF-41), oxytocin and arginine vasopressin (AVP), hypophysial portal vessel blood was collected from control (intact) and long-term (6-8 weeks) hypophysectomized rats. In preliminary experiments in rats anaesthetized with urethane, long-term hypophysectomy resulted in a significant increase in the secretion of oxytocin and AVP; the hypothalamic contents of oxytocin and AVP were also increased in comparison with pituitary-intact rats. In long-term hypophysectomized rats anaesthetized with sodium pentobarbitone, but not with urethane, the output of CRF-41 into portal blood was increased twofold in comparison with that in control rats. In long-term hypophysectomized rats anaesthetized with pentobarbitone, the i.v. infusion of corticosterone (7.2 nmol/min) for a 2 h period of portal blood collection did not alter the secretion of CRF-41, oxytocin or AVP into portal blood; however, the secretion of CRF-41 and, to a lesser extent, AVP was significantly reduced in hypophysectomized rats by continuous corticosterone replacement, by a pellet of corticosterone implanted s.c. for 5 days before portal blood collection. These results confirm that the secretion of CRF-41 is differently affected by the anaesthetics urethane and pentobarbitone, and in long-term hypophysectomized rats show (i) that there were no apparent feedback effects of corticosterone infusion over a 2 h period on the secretion of any of the peptides studied, (ii) that late delayed feedback effects of continuous administration of corticosterone are mediated by a reduction in CRF-41 and AVP output, and (iii) that corticosterone has no effects on oxytocin secretion into portal blood.
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PMID:Effects of corticosterone on the secretion of corticotrophin-releasing factor, arginine vasopressin and oxytocin into hypophysial portal blood in long-term hypophysectomized rats. 203 Mar 34


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