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)

This review provides a summary and assessment of research involving renal prostaglandins. Arachidonic acid released from phospholipids is converted by prostaglandin cyclo-oxygenase in the kidney to PGF2, PGF2alpha, PGD2, and, possibly, to PGI2 and thromboxane A2. Production of PGE2 and PGF2alpha is predominately but not exclusively in the medulla, whereas degradative enzymes are present in both cortex and medulla. Prostaglandins enter the tubular lumen by facilitated transport and are partially reabsorbed from the urine in the distal nephron. Urine prostaglandins probably reflect renal synthesis. PGE2 and endoperoxides stimulate and PGF2alpha and indomethacin inhibit renal renin synthesis. In response to ischemia, vasoconstriction, or angiotensin II the kidney increases prostaglandin synthesis to modulate renal vascular resistance. In conscious animals or man no role has been established for prostaglandins in the maintenance of basal renal blood flow or renal sodium excretion. PGE influences renal water excretion by inhibiting the action vasopressin. Despite conflicting data there is evidence that renal prostaglandins are involved either primarily or secondarily in many types of hypertension. Inhibitors of prostaglandin cyclooxygenase have been used with success in Bartter's syndrome. Conflicting results in many areas of investigation may be resolved by the use of more accurate and reliable assays, careful handling of samples, and the use of urine to further investigate renal prostaglandin synthesis.
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PMID:Prostaglandins and the kidney. 33 46

The regulation of cytoplasmic calcium is a key process in nerve tissue. Using a smooth muscle model we have shown that prostaglandin (PG) E2 probably regulates entry from extracellular fluid, whereas the release from intracellular stores depends on the interplay between thromboxane (TX) A2, PGEI and prostacyclin. Hormones and other agents interact with this system in the following ways: vasopressin, angiotensin and inositol mobilize arachidonic acid from membrane phospholipids and increase synthesis of PGE2 and TXA2, cortisol blocks this action. Prolactin and zinc mobilize dihomo-gamma-linolenic acid and increase synthesis of PGEI. These effects can be blocked by cortisol, lithium and taurine, three agents which on their own have no effect on basal PG production. Epileptogenic agents like penicillin and picrotoxin also stimulate PG synthesis, while diphenylhydantoin is a PG antagonist and diazepam is a TXA2 antagonist. The effects of all these agents occur at concentrations which are physiological in the case of the natural ones, and readily attained in human plasma in the case of the drgus. In view of recent evidence that calcium may be important in demyelination and considering the established role it plays in nerve conduction and synaptic transmission, we suggest that these observations may be of significance in understanding Friedreich's ataxia.
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PMID:Regulation of cytoplasmic calcium: interactions between prostaglandins, prostacyclin, thromboxane A2, zinc, copper and taurine. 34 85

To obtain more information on the importance of prostacyclin (PGI2), and of its stable metabolite 6-oxo-PGF1, in the maintenance of uterine and placental circulation, their pharmacological activity was studied on strips of nonpregnant human uterus and human fallopian tubes, and compared with the action of natural prostaglandins PGE2, PGF2 and PGD2. Prostacyclin induced a biphasic response on strips of uterus and of fallopian tubes; in 6 different experiments an initial contraction followed by relaxation associated with loss of spontaneous motility was constantly observed in a dose dependent manner; PGE2 and PGD2 also inhibited the spasmus induced by PGF2, but not that induced by BaCI2 and vasopressin. The contractions caused by 6-oxo-PGF1 on both uterine and fallopian tube strips were considerably less potent. These experiments clearly demonstrate that PGI2 interferes with spontaneous motility of tonus of the normal uterus. It must be underlined that the effect of PGI2 and of 6-oxo-PGF1 is species dependent, since in rat uterus, unlike in the human uterus, both compounds induce contractions.
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PMID:Pharmacological activity of PGI2 and its metabolite 6-oxo-PGF1alpha on human uterus and fallopian tubes. 35 94

The action of prostacyclin (PGI2) on arterial pressure, heart rate, plasma concentration of angiotensin II and vasopressin was studied in groups of normal, renal hypertensive and DOC hypertensive rats. PGI2 was given by continuous iv. infusion at successive doses of 0.25, 0.5 and 1.0 microgram/kg x min, each rate for one hour. Arterial pressure was reduced to normal or below normal in the hypertensive rats, though the fall of blood pressure was greatest in the DOC hypertensive animals. Mean arterial pressure at the end of infusion was 89 mm Hg for normal rats, 87 mm Hg for renal hypertensive rats and 69 mm Hg for DOC hypertensive rats. Diastolic pressure fell more than systolic pressure suggesting a vasodilator mechanism. Heart rate was reduced significantly at the end of the infusion in the three groups of rats. Prostacyclin was also infused for 3 hours at a constant rate of 0.5 microgram/kg x min. The arterial pressure lowering effect was maintained throughout the infusion period.
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PMID:The vasodepressor action of prostacyclin (PGI2) and its effect on plasma angiotensin II and vasopressin in unanaesthetized normotensive and hypertensive rats. 39 17

The receptor agonist-mediated hydrolysis of phosphoinositides and production of prostacyclin were studied in murine cerebral endothelial cells (MCEC). Of 11 neurotransmitters and neuromodulators examined, carbachol, noradrenaline (NE), bradykinin, and thrombin significantly increased 3H-inositol phosphate accumulation in the presence of LiCl (20 mM). The maximal stimulation of [3H]inositol monophosphate ([3H]IP1) reached approximately 11, 11, seven, and four times the basal levels for carbachol, NE, bradykinin, and thrombin, respectively. The EC50 values of IP1 accumulation for carbachol and NE were 34 and 0.16 microM, respectively. The muscarinic antagonists, atropine and pirenzepine, blocked the carbachol-induced IP1 accumulation with Ki values of 0.3 and 30 nM, respectively. The adrenergic antagonist, prazosin, blocked NE-induced IP1 accumulation with a Ki of 0.1 nM. The calcium ionophore A23187, histamine, glutamate, vasopressin, serotonin, platelet activating factor, and substance P did not stimulate IP1 accumulation. A23187, bradykinin, and thrombin stimulated prostacyclin release to approximately four, four, and two times the basal levels, respectively, whereas carbachol and NE had little effect upon prostacyclin release. These results suggest that the activation of phospholipase C and of phospholipase A2 in MCEC are regulated separately.
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PMID:Receptor-linked hydrolysis of phosphoinositides and production of prostacyclin in cerebral endothelial cells. 131 55

Old concepts of an "inert" vascular endothelium have been entirely discredited. It is now known that the vascular endothelium and media form a "functional unit", communicating via both electric and humoral signals. Normal endothelium maintains vascular dilation through release of various dilatory substances, the main one being endothelial relaxing factor (EDRF), which is nitric oxide (NO). EDRF is, for example, released in response to increased shear stress that accompanies high flow rates, and acts by engaging the cyclic GMP system of smooth muscle cells. Even potential vasoconstrictors such as vasopressin, catecholamines and serotonin release EDRF. Endothelial release of prostacyclin supplements the EDRF action. EDRF (and prostacyclin) also inhibit platelet aggregation. In the presence of hypertension and/or atherosclerosis, endothelial function is often impaired and pressor/thrombogenic factors such as endothelin, thromboxane, vasopressin, catecholamines, and serotonin become more dominant. Antihypertensive therapy should, ideally, seek to restore endothelial function to normal.
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PMID:Hypertension and endothelial function--aspects of atheroma protection. 134 64

Renal prostaglandins (PGs) help maintain renal blood flow and glomerular filtration rate when the kidney is exposed to a vasoconstrictor stress. In addition, they aid pressure natriuresis and blunt the antidiuretic effect of vasopressin. Angiotensin-converting enzyme (ACE) inhibitors could decrease renal PG synthesis by reducing angiotensin II (Ang II) formation or increase it by preventing kinin inactivation. Additionally, they could affect PG synthesis or catabolism directly. The effects of ACE inhibitors on blood pressure and renal hemodynamics appear to be largely independent of changes in renal PG synthesis. Similarly, there is no evidence that pressure natriuresis is modified by ACE inhibitors. A kinin induced increase in collecting duct PG synthesis may account for the water diuresis seen clinically with ACE inhibitors. A possible beneficial interaction between thromboxane synthesis inhibitors and ACE inhibitors may exist. Thromboxane synthetase inhibitors can reduce renal vascular resistance by redirecting PG endoperoxide synthesis toward prostacyclin. This effect may be offset by a prostaglandin-induced increase in renin release and Ang II formation. ACE inhibitors, by preventing Ang II synthesis, may increase the vasodilation due to thromboxane synthesis inhibition.
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PMID:Renal prostaglandin synthesis and angiotensin-converting enzyme inhibition. 138 64

Topical dynorphin and beta-endorphin produce increases in both prostanoid and vasopressin concentrations in cortical periarachnoid fluid of newborn pigs. The present study, in anesthetized piglets with cranial windows implanted, investigated the role of these prostanoids in the mediation of this vasopressin release by opioids. Topical prostaglandin (PG) I2 (100 ng/ml) increased pial arteriolar diameter from 145 +/- 4 to 178 +/- 4 microns and also increased cerebrospinal fluid (CSF) vasopressin from 1.1 +/- 0.1 to 4.1 +/- 0.5 microU/ml, but CSF vasopressin was not changed by PGE2, PGF2 alpha, and U-46619. Therefore, it is possible that PGI2 causes the increase in CSF vasopressin produced by opioids. Consistent with this concept, indomethacin and aspirin blocked dynorphin- and beta-endorphin-induced vasopressin release. The present data indicate that PGI2 contributes to opioid-induced changes in CSF vasopressin concentration and, thereby, to vasopressinergic contributions to opioid-induced cerebral vascular responses.
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PMID:Prostanoids modulate opioid-induced increases in cerebrospinal fluid vasopressin concentration. 148 93

We have investigated the effects of thiopentone and chlormethiazole on maternal intramyometrial arteries dissected from myometrial biopsies taken during Caesarean section at term. Ring preparations were mounted in organ baths and isometric tension was recorded. Thiopentone 10(-4)-10(-3) mol litre-1 inhibited responses to K+ depolarization, noradrenaline and vasopressin. Chlormethiazole 3 x 10(-5)-3 x 10(-3) mol litre-1 inhibited responses to noradrenaline, while a concentration of 3 x 10(-3) mol litre-1 was required to attenuate responses to vasopressin and K+ depolarization. Neither of the two agents affected relaxant responses to prostacyclin. The results did not yield evidence that clinical use of thiopentone and chlormethiazole should impair uteroplacental vascular perfusion by a direct effect.
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PMID:Effects of thiopentone and chlormethiazole on human myometrial arteries from term pregnant women. 154 47

To gain insight with regard to the mode of action of calcium antagonists on the vasculature, we examined the effects of nifedipine, isradipine, felodipine, verapamil, gallopamil, and amlodipine on vasoconstrictor-induced prostacyclin synthesis in vitro. Cultured rat aortic smooth muscle cells were seeded after two to four passages in multiwell plates. After washing of the culture medium and a preincubation period, the cells were exposed for 1 h to either angiotensin II (Ang II) or arginine-vasopressin (AVP) at increasing concentrations between 10(-10)-10(-6) M with or without each calcium antagonist tested at 10(-6) M. At the end of the incubation period, the medium was aspirated, centrifuged, and assayed for its content of protein and of 6-keto-PGF1 alpha by radioimmunoassay. Ang II induced a 15-fold increase and AVP induced a fivefold increase of 6-keto-PGF1 alpha at 10(-6) M. None of the various calcium channel blockers tested showed a significant effect on this agonist-stimulated production of 6-keto-PGF1 alpha. Consequently, calcium-channel blockers with different chemical structure, although known to inhibit agonist-induced vasoconstriction, appear to preserve vasoconstrictor-induced production of prostacyclin, a potent vasodilator and an inhibitor of platelet aggregation.
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PMID:Effect of different calcium channel blockers on angiotensin II- and vasopressin-induced prostacyclin biosynthesis in vascular smooth muscle cells. 169 90

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