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Query: UNIPROT:P01178 (oxytocin)
15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The release of oxytocin from isolated posterior lobe of the hypophysis of untreated rats and rats pretreated with alpha-methyl-p-tyrosine (alpha-MPT) has been studied. The amount of oxytocin released under resting conditions, in response to ouabain was much higher in those preparations which had been pretreated with alpha-MPT. Dopamine failed to affect the resting release in tissue taken from control rats but it significantly reduced the secretion of oxytocin in tissue dissected from dopamine-deficient rats. Opioid peptides, beta-endorphin or D-Ala2-Pro5-enkephalinamide enhanced the release of oxytocin from isolated neural lobe of the hypophysis dissected from untreated rats, but they failed to enhance significantly the release from posterior lobe of rats which had been pretreated by alpha-MPT. Naloxone prevented the effect of the opioid peptides, and by itself significantly reduced the release of oxytocin. The data suggest that (i) dopamine stored in, and released from, the neural lobe may inhibit the secretion of oxytocin; (ii) the release of oxytocin may be continously controlled by an endogenous opioid peptide: opioid peptides may exert their effect via a disinhibitory phenomenon; they remove the inhibitory effect of dopamine on oxytocin release possibly by inhibiting the release of dopamine.
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PMID:Inhibition of dopamine of oxytocin release from isolated posterior lobe of the hypophysis of the rat; disinhibitory effect of beta-endorphin/enkephalin. 739 4

Naloxone increases oxytocin secretion in pregnant rats, suggesting restraint by endogenous opioids but we have previously reported that oxytocin nerve terminals in the neural lobe become desensitized to opioid actions in late pregnancy. Therefore, we sought evidence for opioid inhibition on oxytocin cell bodies and their inputs at this time. In conscious 21 d pregnant rats naloxone increased the number of neurons expressing Fos (an indicator of neuronal activity) in the supraoptic nucleus (SON) but had no effect on 16 d pregnant or virgin rats. Release of oxytocin within the SON, measured by microdialysis in conscious rats, was also increased by naloxone in late pregnancy but not before. Nor-binaltorphimine, a specific kappa- opioid antagonist, did not increase Fos or affect oxytocin release within the SON in any group. In anesthetized rats the firing rate of SON neurons was recorded and oxytocin neurons identified by an excitatory response to intravenous cholecystokinin. Naloxone potentiated the cholecystokinin-induced firing rate response on day 21 of pregnancy but not in 16 d pregnant or virgin rats. Blood sampling in anesthetized rats showed that naloxone also increased the oxytocin secretory response to cholecystokinin in late pregnant rats. We conclude that in late pregnancy, after day 16, endogenous opioids inhibit oxytocin neurons either directly, on their cell bodies, or presynaptically on inputs. These endogenous opioids do not act through kappa- opioid receptors since nor-binaltorphimine was ineffective, but may act via mu-opioid receptors. Thus, the opioids restrain premature oxytocin secretion until parturition when there is a high demand for it.
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PMID:Central endogenous opioid inhibition of supraoptic oxytocin neurons in pregnant rats. 762 33

Normonatremic and chronically hyponatremic rats were pretreated with naloxone (5 mg/kg) or isotonic (150 mM) NaCl, then were given i.v. injections of 2 M NaCl (2 ml) or were hemorrhaged (20 ml/kg). Baseline and post-stimulus blood samples were withdrawn through indwelling jugular venous catheters. Baseline levels of plasma vasopressin (AVP) and oxytocin (OT) were similar in both normonatremic and hyponatremic rats and did not change after naloxone pretreatment. Increases in plasma AVP and OT levels in response to both hypertonic saline and hemorrhage were markedly blunted in the hyponatremic rats compared to the normonatremic rats. Naloxone pretreatment caused augmented AVP and OT secretion in response to hypertonic saline stimulation and hemorrhage in both the normonatremic and hyponatremic rats; the magnitude of the naloxone augmentations in the hyponatremic rats were sufficient to normalize the OT response to hypertonic saline and both the OT and AVP responses to hemorrhage. Our results therefore suggest that endogenous opioids are likely involved in the inhibition of stimulus-induced AVP and OT release that accompanies chronic hypoosmolality.
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PMID:Naloxone disinhibits magnocellular responses to osmotic and volemic stimuli in chronically hypoosmolar rats. 773 98

In the pregnant rat the osmotic drive to oxytocin neurones is reduced and oxytocin secretion itself is inhibited by endogenous opioids. Coupling of the anterior peri-third ventricular input pathway, involved in osmoregulation, to magnocellular oxytocin neurones was studied in urethane-anaesthetized virgin and 21 day pregnant rats using electrical stimulation of the region anterior and ventral to the third cerebral ventricle (AV3V region) to drive the oxytocin neurones, and giving naloxone to prevent the action of any endogenous opioids on the system. Trains of stimuli (0.5 mA, 1 ms pulses, 10 s on 10 s off, at either 10 Hz or 25 Hz for 10 or 2 min respectively) were given at 20 or 30 min intervals via an electrode stereotaxically-implanted in the AV3V region, and femoral arterial blood plasma samples collected immediately before and after each stimulation were radioimmunoassayed for oxytocin concentration. The first (control) AV3V stimulation increased plasma oxytocin concentration reproducibly and similarly in virgin and 21-day pregnant rats. Naloxone administered 10 min before the second stimulus increased basal plasma oxytocin concentration in virgin and pregnant rats and increased the oxytocin secretory response to 25 Hz AV3V stimulation in virgin but not pregnant rats, and the response was significantly greater in virgin rats. Naloxone reveals oxytocin secretion unrestrained by endogenous opioids, therefore it appears that there is an opioid-independent reduction in the excitatory coupling of the AV3V input to oxytocin neurones which may explain the reduced osmoresponsiveness of oxytocin neurones at the end of pregnancy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Opioids and coupling of the anterior peri-third ventricular input to oxytocin neurones in anaesthetized pregnant rats. 792 May 92

Microdialysis was used to apply an osmotic stimulus (0.5 M NaCl-aCSF) into both supraoptic nuclei (SON) to investigate the role of endogenous opioid peptides in the control of both central and peripheral oxytocin release in response to this stimulus. There were no differences in central peptide release during direct hyperosmotic stimulation between groups of rats given either vehicle, morphine (5 mg/kg) or naloxone (5 mg/kg) intravenously. Naloxone potentiated oxytocin release into blood; this suggests that endogenous opioid peptides at the level of the neurohypophysis, but not in the SON are important modulators of oxytocin release to this stimulus. However morphine blocked oxytocin release into blood indicative of a central inhibitory action on the firing rate of oxytocin neurones, contrasted with insensitivity to morphine of oxytocin secretion from the dendrites stimulated directly by hyperosmolarity.
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PMID:Opioids influence neurohypophysial but not central oxytocin release following direct hyperosmotic stimulation of the supraoptic nucleus in urethane-anaesthetised rats. 799 Oct 66

1. The present study investigated the mechanisms by which endogenous opioids regulate oxytocin secretion at the level of the posterior pituitary gland. Effects of the selective kappa-agonist U50,488 on oxytocin secretion were studied in urethane-anaesthetized lactating rats. Oxytocin secretion in response to electrical stimulation (0.5 mA, matched biphasic 1 ms pulses, 50 Hz, 60-180 pulses) of the neurohypophysial stalk was bioassayed on-line by measuring increases in intramammary pressure, calibrated with exogenous oxytocin. Intravenous (I.V.) U50,488 inhibited electrically stimulated oxytocin secretion, without affecting mammary gland sensitivity to oxytocin. The inhibition was dose related, with an ID50 of 441 (+194, -136) micrograms/kg and was naloxone reversible. Antagonism of endogenous beta-adrenoceptor activation by propranolol (1 mg/kg) reduced the potency of U50,488. The selective mu-agonist morphine (up to 5 mg/kg), had no effect on electrically stimulated oxytocin secretion, but depressed the mammary response to oxytocin. 2. In lactating rats given intracerebroventricular (I.C.V.) morphine infusion for 5 days to induce tolerance and dependence, I.V. U50,488 still inhibited electrically stimulated oxytocin secretion, but the ID50 was reduced to 170 (+78, -54) micrograms/kg; thus at the posterior pituitary the sensitivity of kappa-receptors is enhanced rather than reduced in morphine-tolerant rats, indicating the absence of cross-tolerance. In these rats, naloxone produced a large, sustained, fluctuating increase in intramammary pressure indicating morphine-withdrawal excitation of oxytocin secretion; I.V. U50,488 diminished this response, confirmed by radioimmunoassay, demonstrating the independence of mu- and kappa-receptors regulating oxytocin secretion. 3. In pregnant rats, I.C.V. infusion of morphine from day 17-18 of pregnancy delayed the start of parturition by 4 h, but did not significantly affect the progress of parturition once established, indicating tolerance to the inhibitory actions of morphine on oxytocin secretion in parturition, and lack of cross-tolerance to endogenous opioids restraining oxytocin in parturition. 4. Neurointermediate lobes from control and I.C.V. morphine-infused virgin rats were impaled on electrodes and perifused in vitro. Vasopressin and oxytocin release from the glands was measured by radioimmunoassay. Each gland was exposed to two periods of electrical stimulation (13 Hz, for 3 min). Naloxone (5 x 10(-6) M) was added before the second stimulation; half the lobes from each I.C.V. treatment were exposed to 5 x 10(-5) M morphine throughout.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Morphine tolerance and inhibition of oxytocin secretion by kappa-opioids acting on the rat neurohypophysis. 827 Dec 2

Oxytocin (0.1 and 1.0 mg/kg s.c.) given to male rats during 5 days, increased tail-flick latency when measured 1 (P < 0.05) and 7 days (0.1 mg/kg, P < 0.05; 1.0 mg/kg, P < 0.01) after the last injection. The effect was gone 2 weeks after the end of the treatment. If an additional injection of oxytocin was given 10 days after a previous 5 day treatment period, the significant difference persisted after 3 weeks (P < 0.05). Tail-flick latency was significantly delayed also in oxytocin-treated females when measured 1 week after the treatment period (P < 0.05). Naloxone, but not an oxytocin antagonist, temporarily antagonised the oxytocin induced delay in withdrawal latency. This indicates that oxytocin may act by increasing the activity of opioid mechanisms.
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PMID:Oxytocin increases nociceptive thresholds in a long-term perspective in female and male rats. 883 45

1. Morphine inhibits supraoptic nucleus oxytocin neurones directly and presynaptically via inhibition of afferent noradrenergic endings. 2. We studied whether morphine tolerance/dependence (induced by intracerebroventricular (I.C.V.) morphine infusion) alters the responsiveness of oxytocin neurones to systemic cholecystokinin (CCK), a stimulus which activates oxytocin neurones via the release of noradrenaline. 3. CCK (20 micrograms kg-1, i.v.) increased plasma oxytocin concentrations similarly in urethane-anaesthetized morphine-naive and -dependent rats. In naive rats, I.C.V. (10 micrograms) and i.v. morphine (0.5 mg kg-1) reduced CCK-induced oxytocin secretion by 95 +/- 4 and 49 +/- 10%, respectively. In dependent rats, i.v. morphine reduced CCK-induced release by only 8 +/- 9%, indicating tolerance. 4. In urethane-anaesthetized rats, i.v. CCK increased the firing rates of oxytocin neurones similarly in morphine-naive and -dependent rats (by 1.2 +/- 0.2 and 1.4 +/- 0.3 spikes s-1 maximum, respectively, over 5 min). Naloxone did not alter spontaneous or CCK-induced activity in naive rats but increased activity in dependent rats (by 3.4 +/- 0.5 spikes s-1), indicative of withdrawal excitation; however, the response to CCK remained unchanged after naloxone. 5. Systemic CCK did not trigger withdrawal, nor did it have a greater excitatory effect in dependent rats. Thus, morphine withdrawal excitation of oxytocin neurones does not involve supersensitivity to the noradrenergic input, or hypersensitivity of this input to i.v. CCK. Tolerance apparently occurs both at the cell bodies of oxytocin neurones in the supraoptic nucleus and in their noradrenergic input. However, dependence is apparent only at the cell bodies.
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PMID:Activation of oxytocin neurones by systemic cholecystokinin is unchanged by morphine dependence or withdrawal excitation in the rat. 893 Aug 44

Oxytocin (OXT), a neurohypophyseal hormone, has a wide range of behavioral effects outside its classic peripheral endocrine functions. OXT involvement in adaptive central nervous system processes has been demonstrated as an inhibitory, amnestic action on learning and memory in different paradigms. Because adaptation and learning are likely to be involved in the neural events leading to drug tolerance and dependence, the question logically arose whether OXT is able to influence the development of tolerance of and dependence on abused drugs. In this review, we summarize our results on the effects of OXT on opiate (including morphine, heroin, and the endogenous opiates beta-endorphin and enkephalin) tolerance and dependence, heroin self-administration, psychostimulant-induced behavioral changes, and behavioral tolerance and sensitization. The sites and mechanisms of action and the possible physiological role of OXT are also discussed. In the first part of this review the effects of exogenously administered OXT on both the acute and chronic behavioral effects of opiates and psychostimulants have been summarized. OXT inhibited the development of tolerance to morphine, heroin, beta-endorphin, and enkephalin, OXT also inhibited the development of cross-tolerance between the predominantly mu-agonist heroin and the predominantly delta-agonist enkephalin in mice. Naloxone-precipitated morphine withdrawal syndrome was also attenuated by OXT. Heroin self-administration was decreased by OXT administration in heroin-tolerant rats. OXT inhibited cocaine-induced exploratory activity, locomotor hyperactivity, and stereotyped behavior in rats and in mice. Behavioral tolerance to cocaine was also attenuated by OXT. On the contrary, OXT stimulated the development of behavioral sensitization to cocaine. OXT did not alter the stereotyped behavior induced by amphetamine. In the second series of experiments, the sites of action of OXT on drug-related behavior were investigated. Intracerebro-ventricular (ICV) and intracerebral (IC) administration of an OXT-receptor antagonist inhibited the effects of peripherally administered OXT on morphine tolerance, heroin self-administration, and cocaine-induced sniffing behavior. This suggests the central, intracerebral location of OXT target sites. Local IC microinjection of OXT in physiological doses into the posterior olfactory nucleus, tuberculum olfactorium, nucleus accumbens, central amygdaloid nucleus, and the hippocampus inhibited the development of tolerance to and dependence on morphine as well as cocaine-induced sniffing behavior and tolerance to cocaine. The physiological role of endogenous OXT in acute morphine tolerance has also been demonstrated, since OXT antiserum (ICV) and OXT-receptor antagonist (injected into the basal forebrain structures) potentiated the development of morphine tolerance. Finally, we investigated the possible mechanisms of action of OXT on drug related behavior. Both morphine tolerance and dependence, and cocaine administration, increased dopamine utilization in the mesencephalon and in the nucleus accumbens, respectively. OXT treatment decreased the alpha-methylparatyrosine-induced dopamine utilization in the mesencephalon and in the nucleus accumbens-septal complex. Chronic OXT treatment decreased the number of apparent binding sites of dopamine in the basal forebrain area. It also inhibited a cocaine-induced increase in dopamine utilization in the nucleus accumbens, but not in the striatum. In light of this information, it appears that OXT inhibits the development of opiate tolerance, dependence, and self-administration as well as the acute behavioral actions of and chronic tolerance to cocaine. This suggests the possible role of this neuropeptide in the regulation of drug abuse. Therefore, OXT may act as a neuromodulator on dopaminergic neurotransmission in limbic-basal forebrain structures to regulate adaptive CNS processes leading to drug addiction.
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PMID:Role of oxytocin in the neuroadaptation to drugs of abuse. 921 Feb 15

Stress or noxious stimuli of various kind may induce the fight-flight response. In this situation a number of physiological and behavioural adaptations leading to defense of the organism occur. At a central level increased activity in the noradrenergic locus coeruleus (LC) and an enhanced secretion of corticotrophin-releasing factor (CRF) and vasopressin produced in the paraventricular nucleus (PVN) integrate stress response. Here the existence of an opposite psycho-physiological pattern associated with relaxation and growth and which is activated by certain types of non-noxious stimuli and integrated by oxytocin is proposed. In support of this, administration of oxytocin to male and female rats gives rise to effects of antistress nature in particular after repeated administration. Thus a five day treatment period with oxytocin 1 mg/kg s.c. or 1 micro g/kg i.c.v gives rise to sedation, lowering of blood pressure, increased withdrawal latency in the tail flick test and also a decrease of corticosterone levels and a rise of certain vagally controlled hormones. Weight gain is also increased under certain conditions. These effects persist several weeks after administration of oxytocin and cannot be reversed by oxytocin antagonists when established, suggesting that secondary mechanisms have been activated. Naloxone temporarily reverses the increased withdrawal of the tail flick test suggesting that opioid mechanisms have been activated to cause this particular effect. In contrast the sedative and blood pressure lowering effect seems to be induced by an enhanced activity in central alpha 2 receptors. Oxytocin levels increase in blood and CSF after various kinds of non-noxious sensory stimulation such as touch, light pressure and warm temperature in both female and male rats. It is suggested that other types of non-noxious stimuli as well may increase oxytocin release. If so, a release of oxytocin could be responsible for not only the antistress effects occurring during lactation but also why relationships, social contact and networks may have health promoting effects in particular by preventing cardiovascular disease.
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PMID:Oxytocin linked antistress effects--the relaxation and growth response. 940 3


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