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 radioimmunoassay for human plasma arginine vasopressin was established. 125I-sAVP (1369mCi/mg) was first produced by the Iodogen method and could be used for up to one month in -25 degrees C storage. The sensitivity was 0.15 pg/tube. The sensitivity of the assay was 0.60 pg/ml, with a range of 0.6-11.0 pg/ml. The acetone-ethanol petroleum method was used to extract vasopressin from plasma samples, with a recovery rate of 75.6%. The intra- and inter-assay coefficients of variation were 9.8% and 16.8% respectively. Plasma vasopressin extraction was proved to be indispensible to the assay by virtue of its ability to minimize plasma protein interference. The physiological fluctuation of human plasma vasopressin with and without water intake was shown to be significant between normal adults and patients with neurogenic diabetes insipidus.
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PMID:[Radioimmunoassay of arginine vasopressin in human plasma]. 215 94

Arginine vasopressin is a neuropeptide that has been shown to modulate functional ethanol tolerance and memory processes. These actions of vasopressin in the CNS have been shown by us and others to be mediated by V1 receptors. Intracerebroventricular injection of vasopressin in mice resulted in a substantial increase in mRNA for the proto-oncogene c-fos in septum and hippocampus, but no increase in cerebral cortex. A V1-selective agonist also increased septal c-fos mRNA levels, while a V2-selective agonist was less effective. Similarly, the response to vasopressin was more effectively blocked by a V1- than a V2-selective antagonist. These results indicate that vasopressin acts specifically at V1 receptors in mouse septum and hippocampus to increase c-fos mRNA. The vasopressin metabolite, AVP(4-9), also increased c-fos mRNA levels in septum and hippocampus, while the response to oxytocin, which has different effects from vasopressin on memory and tolerance, was greater in hippocampus than in septum. Nerve growth factor, in contrast to the other peptides, had a more pronounced effect on c-fos mRNA levels in cerebral cortex than in the other brain areas. Increased c-fos expression has been hypothesized to play a role in neuroadaptation, and these results suggest that modulation of septal c-fos expression could be important for vasopressin effects on ethanol tolerance and/or memory.
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PMID:Arginine vasopressin induces the expression of c-fos in the mouse septum and hippocampus. 216 40

Cultured fibroblasts (REF52 cells) were employed to investigate phospholipid degradation in response to vasopressin (VP) treatment. There have been few studies in fibroblasts which characterize the pattern and relationship of phosphatidylinositol 4,5-bisphosphate (PIP2) and non-phosphoinositide hydrolysis elicited by VP. Here we demonstrate that VP-induced PIP2 hydrolysis is closely accompanied by phosphatidylcholine (PC) degradation by phospholipase D. Cells prelabeled with [3H]arachidonic acid showed rapid formation and diminution of [3H]diacylglycerol (DG) (5-15s) when treated with VP; this was accompanied by a reduction in polyphosphoinositide radioactivity. Radiolabeled inositol trisphosphate was generated with a similar time frame. In cells prelabeled with [3H]myristic acid, which is predominantly incorporated into cellular PC, VP elicited the generation of [3H]myristoyl phosphatidate (PA) as early as 15 s, in the absence of an increase in labeled DG. In the presence of ethanol the pattern of [3H]myristoyl phosphatidylethanol (PEt) formation coincided with [3H]myristoyl-PA formation in the absence of ethanol. PEt was similarly formed, in response to VP treatment, in cells prelabeled with 1-O-[3H]hexadecyl-2-lyso-sn-glycero-3-phosphocholine. The formation of PC-derived [3H]myristoyl-DG was characterized by a lag period of approximately 1 min, after which DG increased steadily over a 10-min period. Biphasic formation of DG was observed in cells prelabeled with [3H]arachidonic acid, and the formation of [3H]PA occurred in an uninterrupted fashion. Two protein kinase C agonists, phorbol diester and dioctanoylglycerol, elicited the formation of [3H]myristoyl-PEt. The inclusion of staurosporine, a protein kinase C inhibitor, blocked VP-induced [3H]myristoyl-PEt formation by 88%. These data demonstrate that VP elicits the coordinated hydrolysis of PIP2 by phospholipase C and PC hydrolysis by phospholipase D. This event results in the prolonged generation of PA and biphasic formation of DG. From the time courses shown, we hypothesize that the early generation of PA, heretofore ascribed to products of the polyphosphoinositide cycle, are in part derived from PC by phospholipase D.
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PMID:Vasopressin-induced polyphosphoinositide and phosphatidylcholine degradation in fibroblasts. Temporal relationship for formation of phospholipase C and phospholipase D hydrolysis products. 217 Mar 80

The activation of phosphoinositide-specific phospholipase C by ethanol was compared in hepatocytes isolated from ethanol-fed rats and from pair-fed control animals. Ethanol (100-300 mM) caused a dose-dependent transient increase in cytosolic free Ca2+ levels in indo-1-loaded hepatocytes from both groups of animals. The rate of Ca2+ increase was similar in hepatocytes from control and ethanol-fed rats, but the decay of the Ca2+ increase was somewhat slower in the latter preparation. The ethanol-induced Ca2+ increase caused activation of glycogen phosphorylase, with 50% response at 50 mM-ethanol and a maximal response at 150-200 mM-ethanol, not significantly different in hepatocytes from control and ethanol-fed animals. Ins(1,4,5)P3 formation in response to ethanol (300 mM) or vasopressin (2 nM or 40 nM) was also similar in the two preparations. It is concluded that long-term ethanol feeding does not lead to an adaptive response with respect to the ethanol-induced phospholipase C activation in rat hepatocytes. The ability of ethanol in vitro to decrease membrane molecular order in liver plasma membranes from ethanol-fed and control rats was measured by e.s.r. Membranes from ethanol-fed animals had a significantly lower baseline order parameter compared with control preparations (0.313 and 0.327 respectively), indicative of decreased membrane molecular order. Addition of 100 mM-ethanol significantly decreased the order parameter in control preparations by 2.1%, but had no effect on the order parameter of plasma membranes from ethanol-fed rats, indicating that the plasma membranes had developed tolerance to ethanol, similar to other membranes in the liver. Thus the membrane structural changes associated with this membrane tolerance do not modify the ethanol-induced activation of phospholipase C. The transient activation of phospholipase C by ethanol in hepatocytes may play a role in maintaining an adaptive phenotype in rat liver.
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PMID:Phospholipase C activation by ethanol in rat hepatocytes is unaffected by chronic ethanol feeding. 217 85

In recent years, ethanol has been shown to interact with membrane-associated signal transduction mechanisms which rely on the reaction of phospholipases with their phospholipid substrates in the membrane. In several cell and membrane preparations, ethanol activates the polyphosphoinositide-specific phospholipase C and triggers the complete battery of intracellular signalling responses that are characteristic for hormones acting through this pathway, including the formation of inositol-1,4,5-trisphosphate, the release of Ca2+ from intracellular storage sites with the consequent activation of cytosolic Ca2(+)-dependent enzymes, and the formation of diacylglycerol leading to the stimulation of protein kinase C. The activation of phospholipase C appears to be due to an interaction of ethanol with the intramembrane complex of receptor-G-protein-phospholipase C, presumably promoting the release of bound GDP and the binding of GTP to activate the G-protein which controls phospholipase C activity. In many intact cells, the phospholipase C is subject to a feedback inhibitory control by protein kinase C. In liver cells, ethanol also triggers this feedback inhibition, leading to a rapid decline in the phospholipase C activation; at the same time, ethanol also causes the desensitization of the response to vasopressin and other phospholipase C-linked agonists. At hormone concentrations in the physiological range, the heterologous desensitization by ethanol of the agonist-mediated phospholipase C activation may be a significant factor at ethanol concentrations that are readily attained in vivo. Further interaction of ethanol with the intracellular second messenger system is mediated through a hormone-sensitive phospholipase D. This enzyme uses phosphatidylcholine to generate phosphatidic acid which can be further converted to diacylglycerol. In the presence of ethanol the enzyme catalyzes the transphosphatidylation to phosphatidylethanol. It is not clear, however, under what conditions this process could affect the normal pattern of formation of second messenger molecules. After chronic ethanol intake, a tolerance can develop at the cellular level to the effects of ethanol on agonist-induced signal transduction processes. However, the mechanism by which this tolerance develops is currently a matter of conjecture. Studies on liver cells indicate that the activity of protein kinase C may play a role in the development of this type of tolerance to ethanol. A better understanding of the interaction of ethanol with these phospholipid-dependent signal transduction processes could point to mechanisms by which ethanol could interfere with physiological control mechanism in a variety of cells and tissues.
Alcohol Alcohol 1990
PMID:Alcohol and membrane-associated signal transduction. 219 31

Manipulations which are known to enhance activity in the renin-angiotensin system (RAS) have been found to reduce the voluntary consumption of ethanol in rats. Since angiotensin II is a potent stimulus for the release of vasopressin (VP), it is possible that the RAS modulates ethanol (ETOH) consumption through a mechanism involving VP. The present investigation examined the effect of peripheral injections of arginine-VP (AVP) and desglycinamide-AVP (DGAVP) on ETOH consumption in rats given daily one-hour access to ETOH. Daily subcutaneous treatment with AVP or DGAVP had no effect on ETOH consumption at doses ranging from 2 to 200 micrograms/kg (SC). Blood pressure was substantially elevated following a single 20 microgram/kg injection of AVP, indicating that AVP was biologically active at doses which failed to alter ethanol consumption. These findings indicate the VP does not affect established ETOH drinking and furthermore is not likely a critical factor in the reduction of ETOH intake by the RAS.
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PMID:Vasopressin does not mediate the inhibition of ethanol drinking by the renin-angiotensin system. 221 3

Vasopressin mRNA levels in the supraoptic and paraventricular nuclei of the hypothalamus, measured by in situ hybridization with a 35S-labeled RNA probe, were decreased by nearly 50% in C57BL/6NCR mice that had ingested an ethanol-containing diet for 7 days, and were tolerant to and physically dependent on ethanol. At 24 h after withdrawal, vasopressin mRNA levels in the supraoptic nucleus were still decreased, while levels in the paraventricular nucleus returned toward control values. Although plasma osmolality was increased in ethanol-fed mice, there was no increase in plasma vasopressin levels, possibly as a result of the effect of chronic ethanol ingestion to decrease vasopressin synthesis. In contrast, in mice that were dehydrated, but not fed ethanol, plasma osmolality, plasma vasopressin levels, and hypothalamic vasopressin mRNA all increased, as expected. The data suggest that chronic ethanol ingestion interferes with the synthesis and secretion of vasopressin, and may result in the reduced ability of an individual to respond to physiological stimuli for vasopressin secretion.
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PMID:Hypothalamic vasopressin mRNA levels in mice are decreased after chronic ethanol ingestion. 225 99

The relationship between portal tributary blood flow (PBF) and hepatic arterial blood flow (HAF) was studied in awake, unrestrained rats with the radiolabeled microsphere technique. Six distinct patterns of response emerged. In group A (PBF+, HAF 0), ethanol, acetate, glucagon, prostacyclin, and a mixed diet increased PBF without a change in HAF; in group B (PBF+, HAF+), adenosine and histamine increased both PBF and HAF; in group C (PBF 0, HAF+), isoflurane and triiodothyronine did not change PBF but increased HAF; and in group D (PBF-, HAF+), halothane and vasopressin decreased PBF and increased HAF. Acute partial portal vein ligation decreased PBF (56%) and increased HAF (436%). Hypoxia (7.5% O2) decreased PBF (28%) and increased HAF (110%). In group E (PBF+, HAF-), acute hepatic artery ligation increased PBF (35%) and reduced HAF (74%), while in group F (PBF-, HAF-), thyroidectomy reduced PBF and HAF (36 and 47%, respectively). All blood flow responses were accompanied by the expected changes in both portal tributary and hepatic arterial vascular resistances. The data suggest that the portal and hepatic arterial vascular territories have regulatory mechanisms that allow for independent changes.
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PMID:Relationship between portal venous and hepatic arterial blood flows: spectrum of response. 226 Jun 56

Human vasopressin (arginine-vasopressin, AVP, antidiuretic hormone, ADH) was estimated, after protein precipitation and extraction in ethanol, using a new radioimmunoassay from Immuno Technology Service, Wijchen, Netherlands. Concentrations in human seminal plasma were 1.84 +/- 1.23 (0.6-4.1) pg/ml, estimated in good duplicates in all 20 samples, where 1 pg = 0.410 uIU/ml WHO 1st 77/501. This is about the same concentration as in blood serum, for which levels up to 8 pg/ml are found by the same kit. In contrast, only trace amounts of vasopressin were found in amniotic fluid at 16-22 weeks of gestation, with zero values in 8 of 19 samples, while another 9 samples showed zero in one duplicate and up to 0.46 pg/ml in the other duplicate, and one sample showed 0.09 pg/ml in good duplicates.
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PMID:Vasopressin: another pregnancy protein in human seminal plasma. 226 24

Rat hepatocytes were studied for [Ca2+]i with Fura-2 at the single cell level using a microfluorometer-imaging system which showed that both the number of cells elevating [Ca2+]i and the magnitude of [Ca2+]i increase were directly dependent upon ethanol concentration between 50 mM and 1 M. Peak [Ca2+]i increases ranged from 27 nM with 50 mM ethanol to 57 nM after 1 M ethanol. Ethanol appeared to initiate calcium release from intracellular stores and caused a dose dependent production of inositol(1,4,5) triphosphate (Ins(1,4,5)P3) in hepatocytes. Low concentrations of ethanol (50-100 mM) did not significantly raise Ins(1,4,5)P3 although 300 mM-1 M increased Ins(1,4,5)P3 comparable to that found with vasopressin (5 nM). In summary, physiologic amounts of ethanol raise [Ca2+]i in rat hepatocytes, although at lower levels (50-100 mM) the changes may or may not be related to an Ins(1,4,5)P3 pathway.
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PMID:Ethanol-induced increases in [Ca2+]i and inositol (1,4,5) triphosphate in rat hepatocytes. 226 41

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