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)

Proline endopeptidase (E.C.3.4.21.26) is an enzyme which cleaves several neuropeptides at the carboxyl-side of proline residues. Some peptide substrates of this enzyme may be found in the rat hypothalamus (thyrotropin releasing hormone, neurotensin, substance P, oxytocin, vasopressin, beta-endorphin). Recent research has shown that the hypothalamic levels of some of these substances (e.g., vasopressin, beta-endorphin) change by a variety of training procedures. We studied the effect of various forms of training on the activity of proline endopeptidase of rat hypothalamus. The present results show that the activity of this enzyme is not altered by electroconvulsive shock or inhibitory avoidance training when measured, 0, 1, or 3 hr after these procedures. Other behavioral procedures (habituation to an open field, two-way active avoidance conditioning, or 1 min of inescapable footshock) also had no effect on hypothalamic proline endopeptidase activity measured immediately after training or test sessions. We conclude that proline endopeptidase probably does not play a regulatory role in the effect of synaptically released hypothalamic neuropeptides on behavior.
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PMID:Hypothalamic proline endopeptidase activity is not changed by various behavioral procedures. 353 16

Following adrenalectomy (ADX), corticotropin-releasing factor (CRF) and vasopressin immunoreactivity are jointly expressed by a population of parvocellular neurosecretory neurons in the paraventricular nucleus of the hypothalamus (PVH). Because these cells stain positively for CRF, but not for vasopressin, after pretreatment with colchicine, the results suggest the existence of state-dependent alterations in the expression of peptides by neuroendocrine neurons. The present study sought to determine whether other neuropeptides (e.g., neurotensin, met-enkephalin) that have been colocalized with CRF in the parvocellular division of the PVH are influenced similarly by ADX; whether the enhancement of CRF and/or vasopressin immunoreactivity after ADX is limited to neurons of the PVH; and what factors might be involved in the regulation of the expression of these peptides in the PVH. The results confirmed that CRF and vasopressin immunoreactivity are both enhanced, and may be colocalized in a substantial population of parvocellular neurosecretory neurons after ADX; no comparable enhancement of staining for met-enkephalin or neurotensin was observed. The effect of ADX on CRF immunoreactivity was not limited to cells in the PVH, as neurons in the cerebral cortex, amygdala, and the bed nucleus of the stria terminalis also showed heightened CRF immunostaining after ADX; vasopressin immunoreactivity was never colocalized with CRF in these extrahypothalamic sites. Hypophysectomy produced an enhancement of CRF and vasopressin staining in the PVH that was comparable to that seen after ADX, implicating adrenal steroids as primary regulators of peptide expression in this system. Corticosteroid replacement studies in ADX rats indicated that lower doses of dexamethasone attenuated, and higher doses essentially abolished, the expected enhancement of both CRF and vasopressin immunoreactivity after ADX. The relative potency of steroids in mitigating these effects was dexamethasone greater than corticosterone greater than deoxycorticosterone greater than aldosterone. Collectively, these results indicate that the ADX-induced enhancement of CRF and vasopressin immunoreactivity in parvocellular neurosecretory neurons is at least somewhat specific to these peptides and to this cell type. Both peptides would appear to be regulated similarly by adrenal steroids, with glucocorticoids playing a primary role.
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PMID:Adrenalectomy-induced enhancement of CRF and vasopressin immunoreactivity in parvocellular neurosecretory neurons: anatomic, peptide, and steroid specificity. 355 42

Several peptides, including arginine-vasopressin (AVP), neurotensin, and substance P, produce analgesia that is not mediated by opiate systems. Using the hot plate test, we studied the analgesic effects of intracisternal (i.c.) administration of various doses of the nonapeptide oxytocin (OXY) in Swiss-Webster mice. We found that OXY (1-4 micrograms) significantly increased the latency of animals to jump or lick their paws after placement on a hot plate. This effect was not blocked by naloxone pretreatment, which suggests that it is not opiate dependent. Using the hot plate test, we confirmed that AVP (1 and 4 micrograms) also produces analgesia. We then studied the analgesia produced by OXY and by AVP using 3 nonapeptide analogues with antagonist properties: [Pen1, LpMePhe2, Thr4, Orn8]OXY (PLMPTO-OXY) that has anti-oxytocic properties in the uterine contraction assay, d(CH2)5Tyr(Me)AVP(dTM-AVP) which antagonizes the antidiuretic properties of AVP and d(CH2)5D-Ile2,Abu4-AVP (dIA-AVP) which antagonizes the vasopressor effects of AVP. Simultaneous administration of PLMPTO-OXY completely blocked the analgesia produced by OXY whereas the antidiuretic antagonist dIA-AVP partially blocked OXY-induced analgesia and dTM-AVP had no effect. None of the antagonists used blocked AVP-induced analgesia. We concluded that the neural systems mediating the analgesic effects of i.c. OXY differ from those for AVP.
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PMID:Effects of nonapeptide antagonists on oxytocin- and arginine-vasopressin-induced analgesia in mice. 367 85

The intracerebroventricular (i.c.v.) injection of oxytocin, in doses ranging from 5 to 90 ng (5-90 pmol) induced penile erection and yawning in male rats. Such response was not induced by doses of the peptide higher than 100 ng, nor by equimolar doses of i.c.v. [Arg8]vasopressin, ACTH-(1-24), alpha-MSH, rat corticotropin-releasing factor (rCRF), delta sleep-inducing peptide, neurotensin or substance P. Oxytocin-induced penile erection and yawning were prevented by atropine and morphine, but not by methylatropine or the opiate antagonist naloxone. Haloperidol, a dopamine receptor antagonist, was ineffective at low doses; it partially prevented penile erection but not yawning at high doses. Since oxytocin is present not only in the neurohypophysis but also in other brain areas, our results suggest that oxytocin is implicated in the regulation of penile erection and yawning, and provide further evidence that oxytocin acts as a neuropeptide in the central nervous system.
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PMID:Oxytocin: an extremely potent inducer of penile erection and yawning in male rats. 379 49

Peptides and non-peptides acting as vasoconstrictors or vasodilators have been tested in dog isolated carotid arteries with and without endothelium and in the presence and absence of a variety of antagonists and inhibitors of endogenous substances. It has been found that substance P and several other tachykinins, bradykinin, neurotensin, bombesin and acetylcholine relax the isolated artery only when the endothelium is present, while VIP, isopropylnoradrenaline, adenosine, histamine, prostaglandins E1 and E2, glucagon and insulin relax and angiotensin, vasopressin, oxytocin, 5-HT and noradrenaline contract the isolated vessel, no matter whether the endothelium is present or not. Peptide and non-peptide antagonists have been used with success to show that vasoconstrictors and vasodilators act on specific receptors, since their effects are reduced in the presence of antagonists, specific for one or another of the various agents. Inhibitors of the arachidonic acid cascade only reduce the effect of acetylcholine, suggesting that at least two different mechanisms are involved in the endothelium-mediated relaxation of arterial smooth muscles to peptide and non-peptide agents. The results summarised in this paper suggest that the site of action of several vasodilators is the endothelium, while other vasodilators and all the vasoconstrictors influence the arterial vessels tone presumably by acting on the smooth muscle cells.
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PMID:Effects of peptides and non-peptides on isolated arterial smooth muscles: role of endothelium. 393 Feb 67

Arginine-vasopressin (AVP) microinjected into the medial preoptic area (MPOA) induces flank marking behavior, a form of olfactory communication, in the golden hamster. When exposed to the odors of conspecifics flank marking behavior occurs naturally in association with grooming of the flank gland region. The present study examined whether microinjection of AVP, oxytocin (OXY) and other biologically active peptides into the medial preoptic area (MPOA), lateral cerebroventricle (LV) or the ventromedial or lateral hypothalamus (VMH-LH) would elicit flank gland grooming. Microinjection of AVP and OXY produced 2-3 times more flank gland grooming when microinjected into the MPOA than saline, neurotensin or angiotensin II. Injection of AVP into the LV and VMH-LH produced significantly less flank gland grooming than when injected into the MPOA.
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PMID:Behavioral effects of vasopressin and oxytocin within the medial preoptic area of the golden hamster. 408 Nov 29

Somatostatin-14 inhibited the isoproterenol-stimulated adenylate cyclase in cell-free homogenates of pituitary intermediate lobe of the male rat with a Ki of 7.25 +/- 0.31 X 10(-7) M. Somatostatin-28 was found to be a partial agonist. Other neuropeptides (met- and leu-enkephalin, beta-endorphin, alpha-melanocyte-stimulating hormone, ACTH, neurotensin, substance P, vasoactive intestinal polypeptide, and vasopressin) were without effect. Our results suggest a role for pituitary and/or brain somatostatin in the physiological regulation of the intermediate pituitary lobe, and the possibility of an interaction between somatostatins and catecholamines on the regulation of intermediate lobe adenylate cyclase.
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PMID:Somatostatin inhibits the isoproterenol-stimulated adenylate cyclase in the intermediate lobe of the male rat pituitary gland. 613 24

The responses of 122 neurons in the area postrema of anesthetized dogs to 17 common transmitters and peptides were determined. Recordings were made from one barrel of a seven-barrel ionophoretic electrode. All neurons were silent at rest, but most could be detected and excited by the application of glutamate. The glutamate response was a brief, high-frequency response of less than 1-sec duration. Excitatory responses were also found to histamine, norepinephrine, serotonin, dopamine, apomorphine, angiotensin II, neurotensin, leucine enkephalin, vasoactive intestinal polypeptide, thyrotropin releasing hormone, gastrin, vasopressin, and substance P. While most neurons tested were excited by dopamine and apomorphine, approximately half of those studied were also excited by each of the other substances. Inhibitory responses were found to norepinephrine (6 of 15 cells) and histamine (3 of 45 cells). No responses were found to acetylcholine, somatostatin, or cholecystokinin. The responses to all 13 excitatory substances other than glutamate were similar. Typically these responses had a latency of 2-20 sec and lasted for 30 sec to 5 min on their first application. The frequency of discharge was usually low (approximately 0.5 Hz). Multiple applications of these agents often induced a maintained spontaneous discharge of low frequency. Each application also induced a transient incremental discharge at a frequency that rarely exceeded 2 Hz. The area postrema has been proposed to be the "chemoreceptor trigger zone" for emesis (Borison and Wang, 1953). All of the agents which excite area postrema neurons, with the exception of serotonin and norepinephrine, are emetic, while none of the three agents without excitatory effects is known to be emetic. Thus these results provide strong support for the central role of the area postrema in emesis. The similarity of response to so many substances on small neurons suggests a common ionic and/or metabolic mechanism underlying the response. The prolonged nature of the response to brief administration of these agents would seem to be appropriate for neurons which subserve a sensation and behavior such as nausea and vomiting.
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PMID:Responses of neurons of canine area postrema to neurotransmitters and peptides. 614 78

The presence and differential distribution of substances antigenically related to known vertebrate neuropeptides demonstrated within the corpus cardiacum of the insect Leucophaea are as follows: Of ten mammalian antisera tested, six yielded substantial immunoreactive deposits resembling oxytocin, somatostatin, Substance P, met-enkephalin, bombesin, and neurotensin, respectively. In the remaining four, the reaction was moderate (vasopressin, beta-endorphin) or marginal (LH-RF, calcitonin). With regard to their regional distribution, these biochemically distinct reaction products seem to fall into two groups: (1) Materials resembling oxytocin, vasopressin, met-enkephalin, beta-endorphin (and presumably also neurotensin and LH-RF) predominate in the central release area of the organ and are considered to be of extrinsic (cerebral) origin. (2) Substances localized primarily in areas rich in intrinsic glandular cells of the corpus cardiacum, and revealed by antisera raised against somatostatin, Substance P, and bombesin, are judge to be synthesized and stored within this organ. In peptidergic fibers entering ther adjacent corpora allata, thus far Substance P-, beta-endorphin-, and LH-RF-like immunoreactivities have been demonstrated. Some of these "new" neuropeptides may be contained in classical neurosecretory neurons, formerly identified by less specific methods, others must be assigned to additional peptidergic neurons heretofore unknown.
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PMID:Immunoreactive material resembling vertebrate neuropeptides in the corpus cardiacum and corpus allatum of the insect Leucophaea maderae. 617 26

In Huntington's disease, there is a decrease of the neuropeptides, substance P, enkephalins, and cholecystokinin in the striatonigral system, whereas in Parkinson's disease an increase of substance P is found in the substantia nigra. Several neuropeptides should be involved in Alzheimer's disease: substance P, endorphins, vasopressin, ACTH, somatostatin, vasoactive intestinal peptide, cholecystokinin, neurotensin, delta sleep-inducing peptide. Alterations of substance P, vasoactive intestinal peptide, cholecystokinin, somatostatin, and endorphins may be related to the pathophysiology of schizophrenia. Delta sleep-inducing peptide may interfere in addiction pathology.
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PMID:Putative peptide neurotransmitters in human neuropathology: a review of topography and clinical implications. 618 57

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