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

Dense-cored vesicles (DCVs) containing oxytocin or vasopressin are secreted from both the nerve terminals in the posterior pituitary and dendrites in the hypothalamus of magnocellular supraoptic neurons. Dendritic secretion can be enhanced (primed) by pretreatment with either thapsigargin or oxytocin for subsequent activity-dependent release. Here, we determined whether priming involves a translocation of DCV closer to the dendritic membrane. To reduce total vesicle content, rats were salt-loaded for 24 h before application of thapsigargin or vehicle onto the ventrally exposed surface of the supraoptic nucleus in vivo. Tissues were then prepared for quantitative electron microscopic analysis of the total incidence of DCVs within supraoptic dendritic cross-sections, and of the incidence and distance (within a 500-nm margin) of each DCV to the dendritic plasma membrane. Salt loading per se did not alter the frequency distribution or average proportion of DCVs found in the 500-nm margin but significantly decreased the average incidence of DCVs per dendrite by 30% (P < 0.05). However, thapsigargin treatment resulted in a significant increase in the total incidence of DCVs within the 500-nm margins and a higher incidence of DCVs within the first 200 nm of the plasma membrane (P < 0.05), indicating that the thapsigargin-induced priming involves a relocation of DCVs closer to sites of secretion.
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PMID:Thapsigargin-induced mobilization of dendritic dense-cored vesicles in rat supraoptic neurons. 1514 25

The aim of this study was to investigate the effect of intestinal electrical stimulation on small intestinal dysrhythmia and motion sickness-like symptoms induced by vasopressin. Female dogs chronically implanted with two pairs of electrodes on jejunum serosa were used in a four-session study. Saline and vasopressin were infused in sessions 1 and 2, respectively. Sessions 3 and 4 were the same as session 2, except a long- or short-pulse intestinal electrical stimulation was applied on the proximal pair of electrodes. Intestinal slow waves and motion sickness-like symptoms were recorded in each session. Results were as follows. (1) Vasopressin induced intestinal dysrhythmia, uncoupling of slow waves, and vomiting and motion sickness-like symptoms (P < 0.05, ANOVA). (2) Intestinal electrical stimulation with long pulses, but not short pulses, was capable of preventing vasopressin-induced intestinal dysrhythmia. (3) Intestinal electrical stimulation with short pulses, but not long pulses, prevented vomiting and the motion sickness-like symptoms. It is concluded that vasopressin induces intestinal dysrhythmia. Long-pulse intestinal stimulation normalizes vasopressin-induced intestinal slow-wave abnormalities with no improvement in symptoms. Short-pulse stimulation prevents emetic symptoms induced by vasopressin but has no effect on slow waves. These data suggest different mechanisms involved with different methods of intestinal stimulation.
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PMID:Effects of intestinal electrical stimulation on intestinal dysrhythmia and symptoms in dogs. 1525 90

Confocal microscopy was used to assess activity-dependent neuroplasticity in neurotransmitter innervation of vasopressin immunoreactive magnocellular neurons in the supraoptic nucleus (SON). Vesicular glutamate transporter 2, glutamic acid decarboxylase, and dopamine beta-hydroxylase (DBH) synaptic boutons were visualized in apposition to vasopressin neurons in the SON. A decrease in DBH synaptic boutons per cell was seen upon salt loading, indicating diminished noradrenergic/adrenergic innervation. Loss of DBH appositions to vasopressin neurons was associated with a general loss of DBH immunoreactivity in the SON. In contrast, the number of vesicular glutamate transporter 2 synaptic boutons per neuron increased with salt loading, consistent with increased glutamatergic drive of magnocellular SON neurons. Salt loading also caused an increase in the total number of glutamic acid decarboxylase synaptic boutons on vasopressinergic neurons, suggesting enhanced inhibitory innervation as well. These studies indicate that synaptic plasticity compensates for increased secretory demand and may indeed underlie increased secretion, perhaps via neurotransmitter-specific, activity-related changes in synaptic contacts on vasopressinergic magnocellular neurons in the SON.
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PMID:Activity-dependent modulation of neurotransmitter innervation to vasopressin neurons of the supraoptic nucleus. 1538 44

Dopamine of renal origin has natriuretic/diuretic actions by activating D1-like receptors of the nephron. Saline load increases renal dopamine production and natriuresis in healthy subjects, and, under these conditions, the activation of D2-like receptors also produces natriuresis/diuresis. Metoclopramide is a D2-like receptor antagonist. Patients with heart failure (HF) have an increased renal dopamine-synthesizing efficiency. However, the effect of salt loading was not explored in HF. We hypothesized that HF patients respond to salt loading with increased production of renal dopamine and that metoclopramide antagonizes this response. This was a randomized, controlled, crossover study exploring the effect of NaCl and metoclopramide on renal dopaminergic, sympathetic, renin-angiotensin-aldosterone, and arginine-vasopressin (AVP) systems activity on sodium handling in 9 HF patients and 9 controls. NaCl markedly increased renal dopamine production and natriuresis in both groups. Metoclopramide blunted these responses in HF patients but not in controls. NaCl decreased renin and aldosterone plasma levels in controls but not in HF patients. In these patients B-type natriuretic peptide (BNP) levels increased, but AVP was not affected. HF patients respond to salt loading with increased natriuresis. However, the mechanisms for this response are different from those found in healthy subjects. Metoclopramide has antinatriuretic effects only in HF patients.
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PMID:Effect of saline load and metoclopramide on the renal dopaminergic system in patients with heart failure and healthy controls. 1572 43

The objective of the present study was to find out whether brain vasopressin (AVP) and angiotensin II (Ang II) are involved in pressor response to intracerebroventricular (ICV) infusion of interleukin-1 beta (IL-1beta). The experiments were performed on conscious, 12- to 14-week-old Sprague-Dawley rats. Mean arterial blood pressure (MAP) and heart rate (HR) were recorded continuously under baseline conditions and during ICV infusion periods. In the first part of the study, the rats were ICV-infused with one of the following: 0.9% NaCl saline (5 microl/h-control), IL-1beta (100 ng/h), angiotensin AT1 receptor antagonist (losartan 10 microg/h), IL-1beta together with losartan, V1 receptors antagonist (V1ANT), d(CH2)5[Tyr(Me)2,Ala-NH2(9)]AVP, 400 ng/h) or IL-1beta together with V1ANT. Saline infusion did not influence MAP, while administration of IL-1beta elicited a significant but transient increase in MAP. The pressor response to IL-1beta was abolished by losartan but not by V1ANT. On the other hand, combined administration of IL-1beta and V1ANT resulted in increase in HR, which was absent during infusion of IL-1beta alone. In the second part of the study after ICV pretreatment with IL-1beta or 0.9% NaCl (control), the rats received ICV infusion of one of the following: 0.9% NaCl saline, subpressor dose of Ang II (5 ng/15 s) or subpressor dose of AVP (5 ng/15 s). Subpressor doses of Ang II and AVP did not influence MAP and HR in saline-pretreated rats. The same dose of Ang II but not AVP applied in IL-1beta-pretreated rats resulted in a significant increase in MAP. The study provides evidence that IL-1beta through its action in the brain increases sensitivity to central pressor action of Ang II. Additionally, we found that AVP and in particular V1 receptors do not play important role in the central pressor action of IL-1beta, however, they may influence its effect on HR regulation.
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PMID:Centrally administered interleukin-1 beta sensitizes to the central pressor action of angiotensin II. 1676 25

The objective was to characterize the urinary oxytocin (OT) system with the goal of using it as a biomarker for neurohypophyseal peptide secretion. We studied urinary OT secretion in mice under three conditions: (1) in OT gene deletion mice (OT -/-) which lack the ability to produce the peptide; (2) after arterial vascular infusion of OT and (3) after physiological stimulation with consumption of 2% sodium chloride. OT was measured by radioimmunoassay (RIA) and Surface-Enhanced Laser Desorption Ionization Time of Flight Mass Spectroscopy (SELDI TOF MS). In OT -/- mice (n=25), urinary OT levels were not detectable, while in OT +/+ mice (n=23) levels were 250.2+/-35.3 pg/ml. To evaluate blood/urine transfer, mice with chronic carotid arterial catheters were infused with saline or OT (5 or 20 pmol/min). Peak urine OT levels were 89+/-11.5 and 844+/-181 ng/ml in the low and high OT groups, respectively. Proteomic evaluation showed MS peaks, corresponding to OT ( approximately 1009 Da) and a related peptide ( approximately 1030 Da) with highest levels in mice infused with OT. Salt loading (5 days of 2% NaCl as drinking water) increased plasma osmolality (3.3%), increased plasma and urinary vasopressin (AVP), but caused no changes in OT. Thus, using non-invasive urine samples, we document that urinary OT and AVP can be used to monitor changes in peptide secretion. Urinary OT and AVP, as well as other urinary peptides, may provide a viable biomarker for peptide secretion and may be useful in clinical studies.
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PMID:Urinary oxytocin as a non-invasive biomarker for neurohypophyseal hormone secretion. 1678 88

Pharmacologic treatment may lead to diverse disturbances of water and electrolyte metabolism as adverse drug events. Diuretics are particularly likely to cause these complications typically including volume depletion, metabolic alkalosis, hyponatremia, and hypokalemia. Salt and water retention with edema formation is most frequently elicited by antihypertensives, steroid hormones, and nonsteroidal anti-inflammatory drugs. Drug-induced disorders of Na+ concentration may usually be attributed to altered antidiuretic hormone (ADH) effects, either as diabetes insipidus or as the syndrome of inappropriate ADH secretion. With hyper- and hypokalemia, redistribution between intra- and extracellular fluid as well as renal excretion play a role. Strategies to prevent these adverse drug reactions include careful consideration of risk factors and clinical and laboratory controls in the course of treatment.
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PMID:[Drug-related disorders of water and electrolyte metabolism]. 1698 2

Acute renal failure during human sepsis is often nonoliguric. To study the underlying mechanisms, renal function was assessed in endotoxic and control male Wistar rats during and after saline loading and treatment with the selective V2 receptor agonist desmopressin. Escherichia coli endotoxin (dose, 8 mg/kg) was administered from time (t)=0 to t=60 min; saline loading (rate, 5 mL/100 g per hour) was administered from t=0 to t=120 min. Thereafter, half of each group received desmopressin (dose, 10 microg) for 1 h. The inner medullary (IM) osmolality, hematocrit, plasma, and urinary concentrations of sodium, potassium, urea, and osmolality were measured; then, aquaporin 2 (AQP2) immunohistochemistry was performed. Plasma vasopressin concentrations were measured at t=180 min. Saline loading increased urine volume in all rats. In the endotoxic group, mean arterial pressure decreased when saline loading was stopped. Despite increased hematocrit and vasopressin levels (>16 pg/mL), the endotoxin group had a low IM osmolality (mean +/- SEM, 412+/-0.04 mOsm/kg H2O) in comparison with the control group (mean +/- SEM, 1,094+/-0.17 mOsm/kg H2O) and was not able to either decrease urine volume or raise urine osmolality. Desmopressin treatment in endotoxin-treated rats maintained mean arterial pressure, increased sodium reabsorption, IM osmolality, and urine osmolality, and decreased urine flow. The AQP2 intensity decreased in the endotoxin group, and the apical localization disappeared; both were not affected by desmopressin. Our results indicate that endotoxemia in rats acutely diminishes renal urinary concentration capacity and is associated with a decreased IM osmolality and diminished apical AQP2 localization. These findings may help to explain nonoliguric acute renal failure in human septic shock.
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PMID:Mechanisms of the urinary concentration defect and effect of desmopressin during endotoxemia in rats. 1769 23

Salt-loading in adult mammals stimulates vasopressin secretion by vasopressinergic neurons of the supraoptic nucleus that is under control by a number of hormones and neurotransmitters including noradrenalin. This study was aimed to determine at what period of ontogenesis the vasopressinergic neurons begin to respond to salt-loading and when the noradrenergic control of this process is switched on. Rats on the 21st embryonic day (E), the 3rd postnatal day (P) and P13 were salt-loaded, sometimes under simultaneous treatment with prasozin, an inhibitor of al -adrenoreceptors. Thereafter, the hypothalamic nuclei of the animals were processed for immunocytochemistry and in situ hybridization. Salt-loading provoked increased synthesis of vasopressin mRNA and, most probably, vasopressin itself in rats in all studied age groups. Under salt-loading, the intraneuronal content of vasopressin increased significantly at E21 and P3, whereas it did not change at P13. No change in the intracellular contents of vasopressin mRNA and vasopressin was observed in foetuses following salt-loading and treatment with prasozin though the same treatment provoked an increase of both parameters at P3. These data show that noradrenalin provides an inhibitory control of vasopressin expression at least since P3. Thus, vasopressinergic neurons begin to respond to salt-loading at the since P3. Thus, life by the increased expression of vasopressin that is postnatally under the inhibitory control by noradrenalin.
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PMID:[Vasopressinergic neurons in rats during ontogenesis: reaction to salt-loading and its modulation by noradrenergic afferents]. 1792 13

Salt loading in adult mammals leads to increased vasopressin secretion by vasopressinergic neurons in the supraoptic nucleus, which is mediated by the actions of a number of hormones and neurotransmitters, including noradrenaline. The present study addressed identification of the stage of ontogenesis at which vasopressinergic neurons start to respond to salt loading and when the noradrenalinergic regulation of this process begins. Studies were performed on rats at embryonic day 21 (E21), postnatal day 3 (P3), and postnatal day 13 (P13) using immunocytochemical and in situ hybridization. Animals were subjected to salt loading, in some cases on the background of the alpha1-adrenoceptor inhibitor prazosin. Salt loading in rats of all age groups induced increases in the synthesis of vasopressin mRNA, probably accompanied by increased synthesis of vasopressin peptide. At E21 and P3, intraneuronal vasopressin levels were increased; there was no change at P13. In salt loading on the background of prazosin administration, vasopressin mRNA and vasopressin contents at E21 showed no change, while at P3 they were increased, which is evidence of the inhibitory effect of noradrenaline on vasopressin expression in the early postnatal period. Thus, vasopressinergic neurons start to respond to salt loading at the end of the prenatal period with increases in vasopressin expression; noradrenergic afferents have inhibitory influences on vasopressin expression in the early postnatal period.
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PMID:Vasopressinergic neurons in rats in ontogenesis: responses to salt loading and their modulation by noradrenergic afferents. 1860 38


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