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)

Changes in rheological properties of the blood were produced by intravenous injection of a high-molecular weight dextran and lysin-vasopressin. The animals were decapitated in one hour. Oxygen absorption by mitochondria of the heart in oxidation of 2.5-10 mM of the succinate increased by 90-120%, as compared to control. Stimulation of respiration by ADP was decreased 1.5-2 times. Simultaneous administration of the succinate and glutamic acid normalized the respiration and phosphorylation. A possibility of inhibition of succinic-dehydrogenase by the oxalo-acetic acid was suggested. Switching of respiration to succinic acid and limiting of the SDG activity can be considered as adaptive factors under conditions of changes in rheological properties of the blood, and are directed to the maintenance of cardiac activity, this being evidenced by the absence of changes in the ATP-asic activity and in the myosin content of the heart.
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PMID:[The influence of rheologic properties of the blood on adaptive processes in the myocardium]. 12

Production, transport, storage and release of antidiuretic hormone (ADH) in the hypothalamo-neurohypophysial system were investigated. ADH produced by nerve cells in the paraventricular and supraoptic nuclei of the hypothalamus is present in a form bound to the specific protein neurophysin, in the neurosecretary granula. Electric and chemical stimulation of these nuclei results in evoked release of ADH in ionic association with neurophysin from the neural lobes. Acetylcholine, norepinephrine, histamine, angiotensin II, gamma-aminobutyric acid and L-glutamic acid have been regarded as candidates of chemical transmitters for the release of ADH in the hypothalamus. Prostaglandin (PG) E2 may be another important compound for central regulation of water metabolism. The possibility that PGE2 may be the transmitter or a modulator in the nuclei has to be considred. Serotonin, dopamine and taurine, however, may not be involded in the ADH releasing mechanisms in the hypothalamus. It appears that norepinephrine, histamine, angiotensin II, PGE2 and bradykinin stimulate directly the neural lobe to release ADH. The ADH release is regulated by intracellular Ca++. The existence of a "readily-releasable pool" of ADH can be ruled out and any limitation in the amount of ADH released under experimental conditions may be due to insufficient activation of the neural lobe. A physiological significance other than a carrier was proposed for neurophysin.
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PMID:[The hypothalamo-neurohypophysial system and antidiuretic hormone (author's transl)]. 33 45

Vasopressin (VP), applied by brief iontophoretic pulses on ventral hippocampus neurons in vivo, excited approximately 30% of the neurons tested. Glutamate (Glu) and acetylcholine (ACh) excited nearly all neurons recorded. A selective antagonist of vasopressin V1 receptors suppressed the VP-induced excitation and, in addition, suppressed the excitations induced by Glu but not those by ACh. The specificity of the action in the brain of this VP antagonist must therefore be doubted. Two excitatory amino acid antagonists, D(-)-2-amino-5-phosphonovaleric acid (2APV) and glutamic acid diethyl ester (GDEE), suppressed the responses to Glu and also those to VP. ACh excitations, tested in the same neurons, were little affected by 2APV and GDEE. The remaining 70% of VH neurons were not excitable with VP. However, the responses of these neurons to Glu but not to Ach, increased markedly both while the peptide was released and for tens of minutes thereafter. The increase in Glu responses induced by VP could not be prevented by the VP or excitatory amino acid receptor antagonists applied before the peptide. The possibility that the excitation and the potentiation of Glu responses caused by VP originated from two different actions of the peptide is discussed.
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PMID:Two actions of vasopressin on neurons in the rat ventral hippocampus: a microiontophoretic study. 197 56

We have synthesized three new analogues of arginine-vasopressin (AVP) to determine some of the structural features that account for antagonistic potency. These analogues are as follows: 4-glutamic acid (gamma-N,N-diethylamide)-8-arginine-vasopressin (I), N,N-diethylamide 1-(1-mercaptocyclohexaneacetic acid)-2-0-methyltyrosine- 4-glutamic acid (gamma-N,N-diethylamide)-8-arginine-vasopressin (II) and 1-(1-mercaptocyclohexaneacetic acid)-2-0-methyltyrosine-4-glutamic acid (gamma-glycine amide)-8-arginine-vasopressin (III). Analogues II and III are weak and moderate antagonists of the vasopressor response to AVP, respectively. Analogue III only exhibits a weak anti-antidiuretic activity. Analogue I lacks antagonistic effects in both systems.
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PMID:Synthesis and some pharmacological properties of three new analogues of arginine-vasopressin modified in positions 1,2,4 and 9. 258 42

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

Monosodium-L-Glutamate (MSG) produces lesions to monoaminergic and peptidergic neurons in several brain areas. The present study examined the effect of neonatal MSG treatment on oxytocin (OXY), arginine-vasopressin (AVP) and somatostatin (SRIF) concentrations in several discrete brain areas of adult rats. OXY increased in the suprachiasmatic and arcuate nuclei and median eminence (ME) and decreased in the paraventricular nucleus of MSG-treated rats. MSG treatment caused AVP to increase in the arcuate nucleus and ME and decrease in the supraoptic nucleus. SRIF decreased following neonatal MSG treatment in both the ME and neurointermediate pituitary lobe. The results demonstrate that the effects of neonatal MSG treatment on neuropeptide content are not just limited to the arcuate nucleus. Furthermore, taken together with previous results, the data suggest that these changes may be indicative of functional deficits in the neuronal activity of some of these peptidergic neurons which, in turn, may be responsible for the abnormal secretion of several pituitary hormones observed in MSG-treated animals.
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PMID:Neurotoxin effects on oxytocin, vasopressin and somatostatin in discrete rat brain areas. 287 75

We examined the role of the parabrachial neuronal mass in mediating the pressor response to electrical stimulation of parabrachial nucleus (PBN). In anesthetized cats, 100 mM L-glutamate (L-glu) was microinjected into PBN at sites from which low-intensity (25 microA) electrical stimulation evoked a pressor response. Arterial pressure, heart rate, and, in some animals, renal or phrenic nerve activity were monitored. Microinjection of L-glu caused an increase in arterial pressure that was comparable with that elicited by low-intensity electrical stimulation. Electrical stimulation, and to a lesser extent L-glu microinjection, caused an increase in renal sympathetic nerve activity but no significant change in heart rate. No consistent change in central respiratory drive accompanied the pressor response. These responses were preserved after baroreceptor denervation but were blocked by intravenous administration of the alpha-adrenergic receptor antagonist phentolamine. Microinjection into PBN of 2 mM kainic acid, which selectively depolarizes neurons but spares axons, reversibly blocked the arterial pressure and renal nerve responses to the 25-microA electrical stimulus. We conclude that the pressor response elicited by electrical stimulation of PBN in the anesthetized cat is mediated by cellular elements in PBN, not by fibers of passage. Because phentolamine completely blocked the pressor response, we suggest that it is subserved peripherally by sympathetic alpha-adrenergic rather than humoral (e.g., angiotensin, vasopressin) vasoconstrictor mechanisms. Finally, our data indirectly suggest that PBN stimulation may differentially engage efferent components of the sympathetic nervous system to elicit the pressor response.
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PMID:Stimulation of parabrachial neurons elicits a sympathetically mediated pressor response in cats. 320 99

From guinea pig posterior pituitaries, a MSEL-type neurophysin (neurophysin containing methionine-2, serine-3, glutamic acid-6 and leucine-7), a glycopeptide referred to as copeptin and their common precursor have been purified to homogeneity and sequenced. The performed acid-oxidized precursor, subjected to trypsin hydrolysis, has given 9 peptides, 6 of which (T1-T6) identical to those given by oxidized MSEL-neurophysin except that T6 has an additional C-terminal arginine residue when compared to its homologue. The other 3 tryptic peptides (T7-T9) are identical to those given by copeptin. The 132-residue precursor therefore comprises a MSEL-type neurophysin (93 residues) and copeptin (38 residues) linked by an arginine residue. The molar proportion of this bound form compared with the free polypeptides is approximately 20%. It is believed that this precursor is a part of the vasopressin-MSEL-neurophysin-copeptin precursor incompletely processed during the transport from hypothalamus to neurohypophysis.
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PMID:Structure of a guinea pig common precursor to a MSEL-type neurophysin and copeptin. 395 54

Neurons of the lower brain stem maintain resting levels of arterial pressure (AP), mediate reflex responses from cardiopulmonary receptors, and are an important site of the hypotensive actions of alpha 2-adrenergic agonists. Details of the pathways and transmitters that mediate tonic and reflex control of AP are emerging. Afferent fibers of cardiopulmonary receptors in the ninth and tenth nerves terminate bilaterally in the nucleus of the tractus solitarius (NTS). Although some neurons contain substance P, the primary neurotransmitter appears to be the excitatory amino acid L-glutamate (L-glu). Neurons in rostral ventrolateral medulla, which most probably comprise the C1 group of epinephrine neurons, are also critical in AP control. C1 neurons project to innervate cholinergic preganglionic sympathetic neurons in the spinal cord. Stimulation of the C1 area electrically or with L-glu increases AP, while lesions or local injection of the inhibitory amino acid gamma-aminobutyric acid (GABA) lowers AP to levels comparable to spinal cord transection. Lesions of C1 neurons or their pathways abolish vasodepressor reflexes from baroreceptors and vagal afferents. In contrast, noradrenergic neurons of the caudal ventrolateral medulla, the A1 group, project rostrally to innervate, in part, vasopressin neurons of the hypothalamus. Stimulation of A1 neurons lowers AP, while lesions or GABA elevates it. We propose that C1 neurons comprise the so-called tonic vasomotor center of the brain stem and also mediate, via a projection from the NTS, the vasodepressor limb of baroreflexes. The NTS-C1 projection may be GABAergic.
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PMID:Brain stem catecholamine mechanisms in tonic and reflex control of blood pressure. 615 1

Studies were carried out on the right auricle of the right atrium of two-day-old rats placed in a special chamber perfused with Ringer-Locke solution at room temperature. The contractions rate of the auricle was counted with the use of a stereomicroscope. The following amino acids dissolved in Ringer-Locke solution were tested: glycine, glutamic acid, serine, alanine, aspartic acid, gamma aminobutyric acid, leucine, and peptides: vasopressin and oxytocin. Glutamic acid in a concentration of 10(-1) mol/l induced a decrease in auricle contraction rate by 25%. Alanine in concentration 10(-2) mol/l induced a decrease by 22%. Leucine in concentration 10(-2) mol/l induced a decrease by 16% and in concentration ten times higher a decrease by 28%. The other tested amino acids, vasopressin and oxytocin in concentration used had no influence on the rate of contraction frequency of the isolated auricle.
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PMID:The influence of amino acids, vasopressin and oxytocin on spontaneous contraction of the right auricle of the right atrium of two-day-old rats in vitro. 654 86

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