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)

The substances stimulating the release of immunoreactive corticotropin-releasing factor from cultured human placental cells were investigated. Monolayer primary cultures of trophoblast cells from pregnant women at term were used. The immunoreactive corticotropin-releasing factor released in the culture medium eluted from high-performance liquid chromatography with the same retention time as human corticotropin-releasing factor. Norepinephrine and acetylcholine increased immunoreactive corticotropin-releasing factor release into the culture medium in a dose-related manner. Epinephrine was partially active, whereas dopamine and serotonin did not induce significant changes of immunoreactive corticotropin-releasing factor release from placental cultures. Angiotensin II, interleukin-1, oxytocin, and arginine-vasopressin also increased placental immunoreactive corticotropin-releasing factor release in a dose-related manner, whereas other peptides (vasoactive intestinal peptide, substance P, somatostatin, atrial natriuretic factor, interleukin-2) were ineffective. These results showed that several neurotransmitters and peptides stimulate the release of immunoreactive corticotropin-releasing factor from placental cells, suggesting their possible involvement in the physiologic regulation of placental immunoreactive corticotropin-releasing factor release during pregnancy and parturition.
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PMID:Neurotransmitters and peptides modulate the release of immunoreactive corticotropin-releasing factor from cultured human placental cells. 256 97

Central adrenoreceptor-mediated regulation of vasopressin secretion and cardiovascular function was studied in male rats and female rats in specific estrous cycle phases. In conscious, unrestrained rats with intracerebroventricular (icv) cannulas and femoral artery and vein catheters, plasma arginine vasopressin concentration (PAVP), mean arterial blood pressure (MABP), and heart rate (HR) were determined before and 5 and 15 min after icv injection of 10 micrograms norepinephrine or 50 micrograms phenylephrine. Norepinephrine (icv) increased PAVP in proestrus and metestrus four and three times (P less than 0.01 and 0.05, respectively) more than in males. Norepinephrine induced similar MABP elevations (P less than 0.01) in males and females in all cycle phases; HR decreased only in proestrus, estrus, and metestrus (P less than 0.01). The increase in PAVP after icv phenylephrine was four and three times greater in proestrous and diestrous females (P less than 0.01 and 0.05, respectively) than in males. The proestrous MABP rise was three times that in males (P less than 0.05); HR decreased similarly in diestrus, proestrus, and males. These results suggest gonadal steroid hormones influence adrenoreceptor-mediated control of vasopressin secretion, MABP, and HR.
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PMID:Sex differences in central adrenergic control of vasopressin release. 258 30

The response of lymph vessels, arterioles and venules in the exteriorized rat mesentery to endothelin-1, vasopressin and norepinephrine was examined with the aid of high-resolution television microscopy. On a molar basis, endothelin-1 was more potent than vasopressin to contract the three types of vessels. Norepinephrine, which could constrict blood microvessels, did not act on lymph vessels. Acetylcholine, sodium-nitroprusside and isoproterenol were ineffective to block the constrictive responses of lymph vessels to endothelin-1 and vasopressin. At the same concentrations, however, acetylcholine and sodium-nitroprusside antagonized the responses of arterioles and venules to endothelin-1 and norepinephrine, whereas the responses of blood microvessels to vasopressin remained unaffected. Isoproterenol, at doses capable of blocking the response of the arterioles and venules to norepinephrine, did not interfere with the constriction induced by endothelin-1 and vasopressin on these vessels. It is suggested that endothelin-1 might play a role in the regulation of lymphatic contractility apart from its vasoconstrictor activity on blood vessels.
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PMID:Endothelin-1 induces potent constriction of lymphatic vessels in situ. 269 20

The influence of various drugs as well as total ischaemia on the outflow of calcitonin gene-related peptide (CGRP), which is present in sensory nerves, and neuropeptide Y (NPY), which is co-stored with noradrenaline (NA), from the isolated guinea-pig heart, was studied in vitro. Capsaicin exposure and total ischaemia for 5-30 min induced a Ca2+-dependent increase in the outflow, suggesting release, of CGRP- but not NPY-like immunoreactivity (LI) from the heart. When characterized by high performance liquid chromatography (HPLC), the CGRP-LI present in heart extracts and the released CGRP-LI by capsaicin eluted in a major peak corresponding to synthetic CGRP. Incubation with morphine, indomethacin or reserpine pretreatment did not influence the capsaicin-evoked release of CGRP-LI. Capsaicin pretreatment depleted the cardiac content of CGRP-LI but not NPY-LI. The increase in perfusate volume observed after 30 min ischaemia in controls was reduced after capsaicin pretreatment. Nicotine exposure induced release of CGRP- as well as NPY-LI in a concentration- and Ca2+-dependent manner. The increased outflow of NPY-LI was not influenced by capsaicin pretreatment. Among other agents tested, bradykinin and ouabain caused increased outflow of CGRP but not of NPY-LI. Noradrenaline, tyramine, histamine, vasopressin, alpha,beta methylene ATP, ATP or adenosine induced changes in cardiac contractility or flow but did not evoke any detectable release of CGRP- or NPY-LI. In conclusion, the release of multiple neuropeptides can be studied in combination with contractile recordings using the isolated perfused guinea-pig whole heart preparation. Activation of cardiac sensory nerves by capsaicin, nicotine, bradykinin and ouabain, as well as ischaemia, induced release of CGRP while nicotine also evoked NPY release.
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PMID:Differential release of calcitonin gene-related peptide and neuropeptide Y from the isolated heart by capsaicin, ischaemia, nicotine, bradykinin and ouabain. 278 50

The roles of putative central neurotransmitters in the control of blood pressure have been reviewed with respect to the cardiovascular functions of individual nerve pathways in the medulla oblongata and spinal cord. Vasomotor activity of sympathetic preganglionic neurones originates from spinally-projecting neurones in the ventrolateral medulla which may include adrenaline neurones of the C1 group and serotonin neurones in the lateral B1 and B3 groups. Other bulbospinal monoamine nerves may modulate vasomotor activity at the spinal level, but the mechanism of this modulation is controversial. Evidence for two descending sympatho-inhibitory pathways has emerged: a noradrenergic projection from the A5 cell group and a serotonergic projection from the medullary raphe (medial B1 and B2 groups). The vasomotor influence of other bulbospinal pathways is unclear. Baroreflex control of blood pressure is mediated through the solitary tract nucleus (NTS). L-Glutamate and substance P are considered as candidates for transmitters in baroreceptor afferents to the NTS. Transmitters in efferent nerves relaying baroreflex activity from the NTS to cardiovagal motoneurones, medullary vasomotor neurones or sympathetic preganglionic neurones have not been identified but the monoamine transmitters present in the NTS appear to modulate baroreflexes. Noradrenaline and serotonin nerve endings may facilitate the vasodepressor component of the baroreflex while adrenaline nerves possibly inhibit the cardiovagal mechanism. Enkephalins and vasopressin act in the NTS to raise blood pressure and nerves containing these neuropeptides may constitute important links in reciprocal cardiovascular pathways between the lower brainstem and hypothalamus.
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PMID:Blood pressure control by neurotransmitters in the medulla oblongata and spinal cord. 286 Jan 49

The largest rami caecales of the ileocolic artery, which is a branch of the mesenteric artery, were perfused at a constant rate of flow. Either vasoconstriction (as an increase in perfusion pressure) or the release of previously incorporated [3H]-noradrenaline was measured. Noradrenaline and ATP, but not carbachol, serotonin, adenosine, Arg-vasopressin and neuropeptide Y, caused marked vasoconstriction. When the sympathetic vasoconstrictor axons in the arterial wall were stimulated by electrical field pulses (either 5 pulses at 10 Hz or 100 pulses at 5 Hz; 0.3 ms pulse width, 200 mA current strength), the ensuing vasoconstriction was at best slightly reduced by phentolamine, prazosin and phenoxybenzamine. The response to 100 pulses, 5 Hz was even enhanced by phentolamine and yohimbine. All antagonists except yohimbine blocked the effect of exogenous noradrenaline. Prazosin did not change the effect of exogenous ATP. alpha,beta-Methylene-ATP (3-15 mumol/l) elicited transient vasoconstriction. Subsequently, responses to ATP as well as to electrical stimulation were reduced and recovered slowly. The response to noradrenaline was not changed. That part of the electrically induced vasoconstriction that remained after alpha,beta-methylene-ATP was almost abolished by phentolamine or prazosin. Pre-treatment of the animals with reserpine decreased but did not prevent the electrically evoked contraction of their arteries. The reserpine-resistant response was not changed by prazosin but was abolished by alpha,beta-methylene-ATP. The vasoconstriction elicited by electrical pulses was not affected by atropine or methysergide but was entirely blocked by tetrodotoxin, guanethidine or exposure to 6-hydroxydopamine. In arteries pre-incubated with [3H]-noradrenaline, electrical stimulation (100 pulses at 5 Hz) increased the outflow of tritium. The evoked overflow was blocked by tetrodotoxin, not changed by alpha,beta-methylene-ATP (9 mumol/l) or prazosin, and enhanced by phentolamine, phenoxybenzamine and yohimbine. We conclude that, in the branch of the mesenteric artery examined, both noradrenaline and ATP or a closely related compound transmit information from sympathetic neurones to smooth muscle. An alpha-adrenoceptor antagonist can reduce neurogenic vasoconstriction by blockade of post-junctional alpha-(probably alpha 1) receptors, reserpine by selective depletion of noradrenaline, and alpha,beta-methylene-ATP by desensitization of the post-junctional ATP (probably P2) receptor mechanism. Noradrenaline and ATP appear to be released from the same neurone. In addition, prejunctional alpha 2-adrenergic autoinhibition of transmitter release operates in the artery. alp
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PMID:Noradrenaline and adenosine triphosphate as co-transmitters of neurogenic vasoconstriction in rabbit mesenteric artery. 286 64

The role of Ca2+ in stimulation of the malate-aspartate shuttle by norepinephrine and vasopressin was studied in perfused rat liver. Shuttle capacity was indexed by measuring the changes in both the rate of production of glucose from sorbitol and the ratio of lactate to pyruvate during the oxidation of ethanol. (T. Sugano et al. (1986) Amer. J. Physiol. 251, E385-E392). Asparagine (0.5 mM), but not alanine (0.5 mM) decreased the ethanol-induced responses. Norepinephrine and vasopressin had no effect on the ethanol-induced responses when the liver was perfused with sorbitol or glycerol. In the presence of 0.25 mM alanine, norepinephrine, vasopressin, and A23187 decreased the ethanol-induced responses that occurred with the increase of flux of Ca2+. In liver perfused with Ca2+-free medium, asparagine also decreased the ethanol-induced responses, but norepinephrine and vasopressin had no effect. Aminooxyacetate inhibited the effects of norepinephrine, A23187, and asparagine. Regardless of the presence or absence of perfusate Ca2+, the combination of glucagon and alanine had no effect on the ethanol-induced responses. Norepinephrine caused a decrease in levels of alpha-ketoglutarate, aspartate, and glutamate in hepatocytes incubated with Ca2+. The present data suggest that the redistribution of cellular Ca2+ may activate the efflux of aspartate from mitochondria in rat liver, resulting in an increase in the capacity of the malate-aspartate shuttle.
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PMID:Ca2+-dependent activation of the malate-aspartate shuttle by norepinephrine and vasopressin in perfused rat liver. 289 18

This study examined the effects of transmural nerve stimulation, acetylcholine, adrenoceptor agonists and several peptides on the contractility of strips of human gallbladder in vitro. Acetylcholine caused concentration-related contractions of the tissues and the sensitivity to acetylcholine was similar in gallbladders with mild and severe chronic cholecystitis. Noradrenaline and adrenaline relaxed gallbladder strips, probably via beta 2-adrenoceptor stimulation. Transmural nerve stimulation always caused contractions, but in the presence of atropine inhibitory responses were demonstrable and these were antagonized by propranolol. There was no evidence of non-adrenergic inhibitory neural responses. Of the peptides tested, only cholecystokinin octapeptide (CCK-OP), gastrin, pentagastrin, substance P and caerulein caused contractions. Responses to CCK-OP, gastrin and pentagastrin were antagonized by dibutyryl cyclic GMP. Hormones which had no effect upon human gallbladder strips included motilin, secretin, bombesin, neurotensin, glucagon, vasopressin, VIP and somatostatin. Considerable differences therefore exist between human tissues and those from experimental animals with respect to the direct actions of neural and hormonal stimuli on gallbladder contractility.
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PMID:Contractility of human gallbladder muscle in vitro. 297 88

Atractyloside inhibited gluconeogenesis from dihydroxyacetone in hepatocytes from fasted rats and increased lactate synthesis. In the presence of atractyloside, lactate/pyruvate and beta-hydroxybutyrate/aceto-acetate ratios were increased and the accumulation of Fru-2,6-P2 was prevented. In the absence of atractyloside, gluconeogenesis from dihydroxyacetone was stimulated by dibutyryl-cAMP and, to a much lesser extent, by norepinephrine and vasopressin. Omission of Ca2+ increased the stimulation by norepinephrine but prevented that by vasopressin. High concentrations (greater than or equal to 40 microM) of atractyloside abolished the stimulation of gluconeogenesis by dibutyryl-cAMP but not that by norepinephrine or vasopressin. Exogenous Ca2+ was not required for hormonal stimulation in the presence of atractyloside. The stimulation by norepinephrine was inhibited by ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N-tetraacetic acid or prazosin but not by propranolol. Atractyloside caused decreases of all glycolytic intermediates and an activation of pyruvate kinase. Norepinephrine partially reversed these effects. The mitochondrial and cytosolic ATP/ADP ratios were determined by digitonin fractionation of hepatocytes. Norepinephrine or vasopressin increased the cytosolic ATP/ADP in the presence of atractyloside. We suggest that the increased availability of cytosolic ATP could be responsible for the stimulation of gluconeogenesis by these hormones.
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PMID:Catecholamine and vasopressin stimulation of gluconeogenesis from dihydroxyacetone in the presence of atractyloside. 299 83

Norepinephrine and the alpha-agonist phenylephrine in concentrations of 10(-5) to 10(-3) M prompted the release of radioimmunoassayable vasopressin (up to 150 pg/min) and oxytocin (up to 20 pg/min) from intraarterially perfused explants of rat basal forebrain. Drug effects were markedly reduced or abolished in the presence of the non-specific alpha-antagonists phentolamine and phenoxybenzamine, and the specific alpha 1-antagonist prazosin. In concert with recent in vivo and in vitro electrophysiological observations, these data imply that endogenous noradrenergic pathways to magnocellular neurosecretory cells are excitatory, mediated through activation of their alpha 1-receptors, thereby enhancing the release of both vasopressin and oxytocin in the neurohypophysis.
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PMID:Alpha 1-adrenergic receptor activation releases vasopressin and oxytocin from perfused rat hypothalamic explants. 301 17


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