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

Intracerebroventricular hANP (50 nmol) inhibits release of vasopressin and oxytocin following dehydration as well as after haemorrhage. 10 nmol/L hANP markedly inhibits vasopressin and oxytocin release in vitro from the neurointermediate lobes both under basal condition as well as during stimulation with excess (56 mM) potassium. It is suggested that ANP may serve as a modulator of vasopressin and oxytocin release. The respective processes are localized, at least in part, at the neurohypophysial level.
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PMID:Atrial natriuretic peptide inhibits neurohypophysial hormones' release in the rat (in vitro and in vivo studies). 145 Apr 36

Electrolytic lesion of the paraventricular nucleus (PVN) of the hypothalamus blocks the tachycardia response to stress. The current study examined the effects of chemical lesion of PVN parvocellular neurons on the cardiovascular and endocrine responses to stress and on the content of hypothalamic oxytocin (OT) mRNA levels. Acute footshock stress increased heart rate in both ibotenic acid lesion and control groups of animals; however, the tachycardia was significantly lower in animals with a PVN lesion than the controls. Lesion of the PVN also attenuated the increase in plasma OT induced by stress, 4-fold in the lesion group versus 20-fold for the controls. There was not a generalized decrease in hormonal responsiveness since the OT response to an osmotic challenge was exaggerated in the lesion group. There was no difference between the groups in the arterial pressure and vasopressin responses to acute stress. Neurotoxin lesions of the PVN also resulted in significant depletions of VP and OT in all levels of the spinal cord and decreased OT levels in the dorsal brainstem. Ibotenic acid lesions of the PVN resulted in no significant changes in OT mRNA in the PVN, SON and PP. In addition, the 48-h dehydration resulted in a significant increase in plasma OT and OT mRNA in the PVN. These data indicate that the parvocellular neurons of the PVN play a role in integration of cardiovascular and endocrine responses to both stressful and osmotic stimuli and provide further evidence that parvocellular OT and VP neurons project to the brainstem and spinal cord.
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PMID:Excitotoxin paraventricular nucleus lesions: stress and endocrine reactivity and oxytocin mRNA levels. 147 37

Progressive water deprivation increased plasma osmolality, plasma Na+ concentration, and hematocrit in proportion to the severity of dehydration. With increases of 2% in plasma osmolality (24 h dehydration), glucose utilization increased in the supraoptic nuclei and tended to increase in the neural lobe. With further dehydration, glucose utilization also increased in the paraventricular nuclei. These increases were paralleled by depletion of vasopressin and oxytocin contents in the neural lobe and by the enhanced secretion of both hormones into plasma, with a predominant increase of vasopressin. These changes were proportional to the degree of dehydration. With progression of dehydration, decreases in intracellular and extracellular volumes accentuate. Reductions in extracellular volume result in increased angiotensin II (ANG II) formation. Accordingly, glucose utilization in the subfornical organ (SFO), a primary site of ANG II action, increased after 48 and 72 h of dehydration. The median preoptic nucleus, which receives direct inputs from the SFO, also increased glucose utilization at these times. Glucose utilization also increased in the organum vasculosum laminae terminalis, probably in response to the converging inputs from osmoreceptors, volume receptors, and ANG II receptors. Decreases in glucose utilization were observed in the caudal and rostral ventrolateral medulla, perhaps as compensatory responses to decreased extracellular volume to prevent fall in arterial blood pressure.
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PMID:Cerebral metabolic responses and vasopressin and oxytocin secretions during progressive water deprivation in rats. 153 40

It has been shown that during physiological stimuli, such as dehydration, supraoptic nucleus (SON) neurons undergo profound morphological changes. However, little is known about how much each type of cell, oxytocin (OT) or vasopressin (VP), contributes to this plasticity during dehydration. Using postembedding immunogold cytochemistry for both OT and VP hormones at the electron microscopic level, we address this question. Rats were chronically dehydrated (given 2% saline to drink for 10 days) and their SON neurons were studied morphologically. The results were compared to control animals with free access to water. Both VP and OT somata showed an enlargement in size in dehydrated animals. Percentage of somasomatic/dendritic membrane contact increased significantly in both VP and OT neurons, with no significant changes in percentage of coverage of the cells by astrocytic membrane. Only the VP cells had a lesser amount of axosomatic membrane contact after dehydration, possibly due to an increase in cell size rather than a decrease in synaptic contact. Multiple synapses (MSs) (i.e., terminals that form more than one synapse with adjacent somata and or dendrites) occurred only between positively labeled cells and between negatively labeled cells, but not between positively and negatively labeled cells. The number of MSs per 100 microns OT somatic membrane or per 100 OT cells was significantly higher in dehydrated rats but was unchanged with regard to VP neurons. These findings indicate that both VP and OT neurons undergo morphological changes during chronic dehydration and, thus, that plasticity is not limited to OT cells as some earlier reports have suggested.
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PMID:Reevaluation of the plasticity in the rat supraoptic nucleus after chronic dehydration using immunogold for oxytocin and vasopressin at the ultrastructural level. 161 60

The time course of acute changes in vasopressin (VP) and oxytocin (OT) mRNA size and level during dehydration has been studied in rats. Total RNA was extracted from samples of the supraoptic nucleus at various intervals after water deprivation, subjected to northern blotting, and probed with oligonucleotides specific for VP and OT mRNA. The VP and OT mRNA size, shown previously to reflect 3'-poly (A) tail length, was consistently increased 2 h after dehydration, prior to significant changes in plasma osmolality or haematocrit. Intraperitoneal administration of hypertonic saline resulted in a similarly rapid VP and OT mRNA size response, in some cases within 1 h of treatment. The effect of a discrete hypovolaemic stimulus was investigated with intraperitoneal injections of polyethylene glycol; again, the VP and OT mRNA size was rapidly increased. No significant changes in mRNA level were observed in any of the experimental groups. The results show that an increase in VP and OT mRNA poly(A) tail length forms an acute and general response to activation of the hypothalamo-neurohypophyseal system. The rapidity of the poly (A) tail response, which appears to be independent of physiological signalling mechanisms associated with increases in mRNA accumulation (observed after 2 days of dehydration), provides a paradigm for the investigation of novel modes of neuronal gene regulation.
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PMID:Rapid changes in poly (A) tail length of vasopressin and oxytocin mRNAs form a common early component of neurohypophyseal peptide gene activation following physiological stimulation. 167 37

Reflex control of magnocellular vasopressin and oxytocin secretion has captured the curiosity and investigative imagination of neuroendocrinologists for nearly 50 years. While it may seem obvious that brisk elevations in circulating levels of vasopressin in response to hemorrhage, or of oxytocin in response to suckling, must of necessity arise from magnocellular neurosecretory neurons in the hypothalamus, the central pathways mediating these reflexes have, until quite recently, remained elusive. In this brief review, ongoing attempts to delineate these pathways are summarized. Evidence for plasticity and local modulation of magnocellular reflexes in response to prolonged stimulation, such as chronic dehydration and lactation, is also presented.
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PMID:Reflex control of magnocellular vasopressin and oxytocin secretion. 172 May 82

Recent reports indicate that in male rats dehydration, LiCl, and cholecystokinin (CCK) each stimulate pituitary oxytocin (OT) secretion and also decrease gastric emptying and motility. In contrast, the present experiments demonstrate that nipple attachment and sucking by pups, a well-known stimulus for neurohypophysial secretion of OT, did not decrease gastric motility in lactating rats. Moreover, systemic injection of naloxone, which is known to potentiate the inhibitory effects of LiCl and CCK on gastric motility in male rats, had no effect on gastric motility of lactating rats while nursing. These data indicate that pituitary OT secretion from magnocellular neurons is not invariably linked to decreased gastric motility in rats. As such, our results support previous findings that inhibition of gastric motility is not secondary to the pituitary secretion of OT but allow a possible role for parvocellular oxytocinergic neurons that project from the hypothalamic paraventricular nucleus to the brain stem in the control of gastric function.
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PMID:Effect of suckling on gastric motility in lactating rats. 185 54

Hunger and satiety appear to reflect the postabsorptive and absorptive phases of caloric homeostasis, respectively. However, only some of the signals that inhibit food intake can be related to caloric homeostasis. For example, decreases in food intake also are observed after administration of nauseogenic chemical agents, treatment with cholecystokinin (CCK), or dehydration. In each case, inhibition of food intake is correlated with induced decreases in gastric motility and increases in secretion of pituitary oxytocin in rats; in primates, including humans, vasopressin but not oxytocin is secreted. In contrast, meal-induced satiety increases gastric contractions and has little or no effect on neurohypophyseal hormone secretion in rats or human subjects. Nauseogenic toxins, CCK, and dehydration stimulate very different subjective states from satiety: LiCl elicits abdominal cramps, nausea, and vomiting, as does exogenous CCK in high doses, whereas dehydration elicits thirst. Thus, inhibition of eating may not be associated with satiety or reflect changes in caloric flux; noncaloric controls of food intake exist and may be accompanied by distinctive increases in neurohypophyseal hormone secretion and loss of gastric function.
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PMID:Caloric and noncaloric controls of food intake. 195 22

Magnocellular neurons synthesize vasopressin (VP) or oxytocin (OT) and release these hormones preferentially from the neural lobe during physiological stimulation. In the rat, VP is secreted preferentially during dehydration and hemorrhage, whereas OT is released without VP by suckling, parturition, stress, and nausea. Vasopressinergic neurons also synthesize and release dynorphin-related peptides--alpha- and beta-neoendorphin, dynorphin A (1-8) or (1-17), dynorphin B--which are agonists selective for kappa opiate receptors in the neural lobe. We proposed that one mechanism for preferential secretion of neurohypophysial hormones is that a dynorphin-related peptide(s) coreleased with VP inhibits selectively OT secretion from magnocellular neurons. We tested this hypothesis in conscious adult male Sprague-Dawley rats which were stimulated by either hypertonic saline administered intraperitoneally (2.5%, 20 ml/kg) or subcutaneously (1 M, 15 ml/kg) or by 24 h of water deprivation. Two approaches were used: (1) dynorphin-related peptides (0.02-20.4 mM) were injected intracerebroventricularly 1 min before decapitating the animal, and (2) the action of endogenous opioid peptides was blocked by injecting subcutaneously or intracerebroventricularly either naloxone or a selective kappa receptor antagonist, Mr 2266 or nor-binaltorphimine. VP and OT were measured by radioimmunoassay. After 24 h of water deprivation, the elevation in plasma [OT] but not [VP] was attenuated (p less than 0.05) by alpha-neoendorphin. Dynorphin A (1-8) also inhibited the release of OT and not VP after intraperitoneal administration of hypertonic saline. Blocking the action of endogenous opioid peptides at kappa receptors with Mr 2266 given peripherally (s.c.) elevated plasma [OT] but not [VP] after stimulation with hypertonic saline administered intraperitoneally or subcutaneously.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kappa opiate receptors inhibit release of oxytocin from the magnocellular system during dehydration. 197 12

In order to resolve conflicting reports in the literature on the effect of aging on the hypothalamo neurohypophyseal system (HNS) in rats, multiple parameters associated with the HNS were evaluated in young (4 months), fully mature (14 months), and old (25 months) Fischer 344 rats under basal and stimulated conditions. The hypothalamic hormones oxytocin and vasopressin were compared in radioimmunoassay of serum, urine, brain and pituitary. Information on body weight, water intake, urine output, serum hematocrit and plasma osmolality was also obtained from the same subjects and analyzed together with these data. Finally, semi quantitative histofluorescence assessment of the noradrenergic innervation of the mediobasal hypothalamus from the same animals was performed to determine the extent of central afferent input to the HNS with advancing age. The circulating levels of vasopressin and oxytocin did not significantly differ in the three age groups under basal conditions. Serum vasopressin concentration was increased following water deprivation, and the increase was comparable in all age groups. Serum oxytocin was also increased following water deprivation in all groups, but the increase was greater in the 25-month-old rats relative to the 4-month-old rats. Urinary excretion of vasopressin was used as an index of daily vasopressin secretion. The urinary concentration of vasopressin was less in aged rats relative to young controls, though an increased urine volume in the mature and old animals meant that total vasopressin excretion in the urine was comparable at all ages studied. The increased urine volume in the mature and aged rats does not appear to reflect a decrease in renal sensitivity to vasopressin, since all age groups demonstrated a comparable reduction in urine volume during water deprivation, at comparable concentrations of circulating vasopressin. These data suggest that the increase in urine volume observed in the 14- and 25-month-old rats may be a function of increased fluid intake rather than hyperactivity in the HNS. The concentrations of both peptides were reduced in the posterior pituitary of aged rats, though again, the total amount of peptide in the gland did not change. Only oxytocin showed an age-related change in the hypothalamus, decreasing in the oldest subjects. These data indicate that the ability to secrete adequate quantities of vasopressin in response to dehydration is not compromised in Fisher 344 rats up to 25 months of age.
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PMID:Physiological and biochemical indices of neurohypophyseal function in the aging Fischer rat. 212 6


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