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

The plasma oxytocin response to insulin-induced hypoglycemia was evaluated in 20 normal male subjects in the basal state (insulin tolerance test (ITT) alone) and after pretreatment with the muscarinic antagonist pirenzepine (40 mg IV 10 min before the ITT in six subjects), the nicotinic antagonist trimethaphan (0.3 mg/min IV for 30 min before the ITT in six subjects), and the dopaminergic receptor agonist bromocriptine (2.5 mg PO 1 hr before the ITT in eight subjects). The drugs did not modify arterial blood pressure nor produce side effects capable of altering oxytocin secretion. Neither pirenzepine nor trimethaphan administration changed the oxytocin response to hypoglycemia, whereas bromocriptine significantly reduced the oxytocin increase during the ITT. These data suggest the involvement of dopaminergic, but not of cholinergic, muscarinic or nicotinic, receptors in the oxytocin response to hypoglycemia.
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PMID:Dopaminergic, but not cholinergic, involvement in regulation of hypoglycemia-induced oxytocin release in man. 266 16

Bilateral adrenalectomy (ADRX) in rats removes the source of two major stress-responsive hormones, corticosterone and epinephrine. To test how ADRX rats withstand stress, we performed the following experiments in adult male rats provided with indwelling femoral arterial and venous cannulae and either ADRX or sham-adrenalectomized (Sham) 3 days later and given 0.5% NaCl to drink. Five to 6 days after adrenal surgery the rats were studied after either a 15 ml/kg.5 min hemorrhage or after an overnight fast followed by insulin-induced hypoglycemia. In fed unstressed ADRX rats, basal mean arterial blood pressure was slightly decreased; heart rate was increased; blood volume, vasopressin, and oxytocin concentrations were not different from sham values; and renin and norepinephrine were significantly elevated. The recovery of arterial pressure after hemorrhage in the ADRX rats was similar to that in the sham group over a 5-h period; however, the responses of vasopressin and oxytocin were significantly greater, and those of renin and norepinephrine were markedly potentiated in the ADRX group. Heart rate recovered faster in the ADRX group and was elevated, compared to the sham value, for most of the 5-h period. Restitution of blood volume was attenuated in the ADRX group, although the restitution of plasma protein was not different between the groups. A significant difference in the change in plasma osmolality between groups after hemorrhage may account for the attenuated restitution of blood volume. After an overnight fast, which reduced blood volume in both groups of rats, the plasma renin concentration rose still further in ADRX rats; the differences in other measured variables observed between fed ADRX and sham groups remained the same. The insulin-induced 50% decrease in glucose caused minor effects on arterial blood pressure and heart rate and occasioned responses in renin and norepinephrine of similar magnitudes in the two groups. We conclude that in the absence of the adrenals, rats restore arterial pressure after hemorrhage remarkably well through potentiation of the responses of other vasoactive neural and hormonal systems. In these studies the marked potentiation of the renin response suggests that the renin-angiotensin system may be important in the maintenance of arterial blood pressure after reductions in blood volume.
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PMID:Potentiation of hormonal responses to hemorrhage and fasting, but not hypoglycemia in conscious adrenalectomized rats. 266 56

In insulin-dependent (type 1) diabetic subjects (n = 7) with intact hormone response to hypoglycaemia, oxytocin infusion (0.2 mU/min over 60 min) produced significant rises in basal plasma glucagon and adrenaline levels, while it reduced basal plasma cortisol levels. During insulin-induced hypoglycaemia, oxytocin potentiated the increases in plasma glucagon and adrenaline, while an inhibitory effect on plasma cortisol levels was still present. In insulin-dependent (type 1) diabetic subjects (n = 7) with blunted counter-regulatory hormone response to hypoglycaemia, the same dose of oxytocin (0.2 mU/min over 60 min) increased basal plasma glucose and glucagon concentrations and lowered basal plasma cortisol concentration. In the same group of patients, oxytocin delivery (0.2 mU/min), simultaneously to an insulin-induced hypoglycaemia, produced a significant elevation of plasma glucagon and adrenaline concentrations thus enhancing glucose recovery from hypoglycaemia. In conclusion, in insulin-dependent (type 1) diabetic patients, oxytocin delivery enhances plasma glucagon and adrenaline levels in basal conditions and during insulin-induced hypoglycaemia.
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PMID:Effects of oxytocin delivery on counter-regulatory hormone response in insulin-dependent (type 1) diabetic subjects. 269 10

We have investigated the importance of endogenous opioids in the differential control of neurohypophysial peptide secretion. The effect of the opioid antagonist naloxone on the vasopressin and oxytocin responses to insulin-induced hypoglycemia was studied in 14 male subjects. Either saline (N = 8) or naloxone (4 mg bolus + 6 mg/h, N = 6) was infused iv during the study. After 60 min infusion soluble insulin 0.15 U/kg was injected. Naloxone infusion for 60 min did not alter basal plasma AVP or OT levels. Insulin-induced hypoglycemia led to a significant rise in plasma AVP in both saline and naloxone-infused subjects (P less than 0.05), which was maximal 45 min after insulin. There was no significant difference in the plasma AVP response to hypoglycemia between the 2 groups. Saline-infused subjects did not show any change in plasma OT in response to hypoglycemia whilst during concurrent naloxone infusion there was a significant rise in OT from 1.9 +/- 0.4 pmol/l before insulin to 3.2 +/- 1.3 pmol/l at 45 min (P less than 0.05). We conclude that there is opioid-mediated inhibition of OT which prevents its release when AVP is secreted in response to insulin-induced hypoglycemia.
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PMID:Opioid-mediated inhibition of oxytocin during insulin-induced hypoglycemic stimulation of vasopressin in man. 283 96

The responses of plasma adrenocorticotrophin (ACTH), cortisol, growth hormone (GH) and prolactin to insulin-induced hypoglycaemia were studied in six lean male subjects (age 22-29 years). Intravenous insulin tests were performed with and without oxytocin infusion. Blood sugar nadir occurred at the onset of symptoms (time S) with no significant differences between oxytocin and saline infusion. During the oxytocin infusion mean plasma oxytocin increased from 1.9 pmol/l to 138 pmol/l. Peak increase in plasma ACTH (oxytocin 266 +/- 54 ng/l; saline 281 +/- 43 ng/l, mean +/- SEM) was at S + 10 min while peak plasma cortisol (oxytocin 680 +/- 47 nmol/l: saline 656 +/- 40 nmol/l) was measured at S +/- 60 min, peak GH (oxytocin 96 +/- 17.8 mU/l; saline 106 +/- 18.6 mU/l) at S + 60 min and prolactin (oxytocin 1332 +/- 239 mU/l; saline 1242 +/- 273 mU/l) at S + 30 min. There were no significant differences in plasma concentrations of ACTH, cortisol, GH or prolactin between saline and oxytocin infusion. The results indicate that oxytocin has no effect on plasma ACTH, cortisol, GH and prolactin responses to insulin-induced hypoglycaemia. In particular they fail to support previous studies which suggested an inhibitory role for oxytocin in ACTH secretion.
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PMID:The effect of oxytocin infusion on adenohypophysial and adrenal cortical responses to insulin-induced hypoglycaemia. 285 20

The present study investigated the possible effect of somatostatin and oxytocin on the basal and stress-induced rise of beta-endorphin (beta-END), beta-lipotrophin (beta-LPH) and cortisol in the human. For this purpose somatostatin (4.1 micrograms/min for 120 min or oxytocin (0.4 micrograms/min for 120 min) was infused into two different groups of seven healthy subjects; 30 min after the start of the infusion, placebo or insulin (0.1 IU/kg body weight, B.W.) was injected on two different days. In a third experimental step, an insulin tolerance test was performed during saline infusion to evaluate stress-related effects on the different hormonal secretions under basal conditions. Plasma levels of beta-END, beta-LPH and cortisol were measured by radioimmunoassay. Extraction and chromatographic procedures preceded the assay for beta-END and beta-LPH. Neither somatostatin nor oxytocin significantly modified basal plasma levels of beta-END, beta-LPH and cortisol. However these treatments blunted the rise of the three hormones seen at 45 and 60 min during insulin-induced hypoglycaemia (P less than 0.01). These results indicate that somatostatin and oxytocin may influence the beta-END, beta-LPH and cortisol increase induced by stress in humans, without affecting their basal secretion.
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PMID:Somatostatin and oxytocin infusion inhibits the rise of plasma beta-endorphin, beta-lipotrophin and cortisol induced by insulin hypoglycaemia. 287 46

The changes in blood glucose, plasma oxytocin, plasma vasopressin, plasma atrial natriuretic peptide, serum osmolality, haematocrit and blood pressure were measured in response to acute insulin-induced hypoglycaemia in six normal male subjects. After the i.v. administration of insulin (0.15 U/kg), plasma concentrations of oxytocin and vasopressin increased rapidly in all subjects and were maximal 15 min after the acute hypoglycaemic reaction (R). Haematocrit increased at the time of the hypoglycaemic reaction, but there was no change in serum osmolality. Systolic blood pressure rose and diastolic blood pressure fell, but mean arterial blood pressure remained unchanged. No changes were demonstrated in plasma concentrations of atrial natriuretic peptide. The release of oxytocin and vasopressin in response to acute hypoglycaemia in man is probably caused by stimulation of the posterior pituitary gland via hypothalamic activation, and not by stimulation of osmoreceptors or baroreceptors.
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PMID:Plasma oxytocin, arginine vasopressin and atrial natriuretic peptide responses to insulin-induced hypoglycaemia in man. 295 4

The hypophysiotropic coding of ACTH secretion resulting from insulin-induced hypoglycemia was investigated in urethane-anesthetized fasted rats. The participation of corticotropin-releasing factor (CRF), arginine vasopressin (AVP), and catecholamines in the ACTH response was first investigated by systemic administration of CRF antiserum, an AVP pressor antagonist, or a ganglionic blocking agent. These treatments were without effect on the hypoglycemic response, which was characterized by a 67% fall in systemic glucose levels within 30 min of insulin administration. ACTH secretion in response to insulin-induced hypoglycemia was differentially affected by these pharmacological treatments. Administration of antiserum to CRF abolished the ACTH response, whereas ganglionic blockade was without significant effect. However, administration of a vasopressinergic pressor antagonist significantly attenuated ACTH secretion after insulin treatment. These observations suggested the participation of both CRF and AVP in mediation of the ACTH secretory response to hypoglycemia. Infusion of glucose to counter the hypoglycemia action of insulin injection prevented the ACTH secretory response. Measurement of immunoreactive (ir) CRF, irAVP, and ir-oxytocin in sequential collections of hypophysial portal plasma revealed a significant elevation of irAVP concentration without concomitant elevation of irCRF or ir-oxytocin levels. We propose that CRF functions in a permissive role, maintaining a relatively constant portal concentration and thereby allowing expression of the weaker ACTH-releasing activity of AVP and other secretagogues. Thus, AVP, not CRF, appears to represent the dynamic mediator of ACTH secretion accompanying insulin-induced hypoglycemia. These observations provide additional support for the hypothesis of multifactor stimulus-specific hypophysiotropic coding of ACTH secretion.
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PMID:Hypophysiotropic regulation of adrenocorticotropin secretion in response to insulin-induced hypoglycemia. 298 21

Pharmacological doses of oxytocin administered in basal conditions evoked a rapid surge in plasma glucose and glucagon levels followed by a later increase in plasma insulin and adrenaline levels. The effects of oxytocin on plasma glucagon and adrenaline levels were potentiated by hypoglycemia. When the endogenous pancreas secretion was suppressed by cyclic somatostatin (150 micrograms/h) and exogenous glucagon (3.5 micrograms/h) and insulin (0.2 mU/kg.min) were both replaced, oxytocin (0.2 U/min) evoked a transient but significant increase in plasma glucose levels suppressing the glucose infusion rate (GIR) in the first 60 min. On the contrary at higher insulin infusion rate (0.6 mU/kg.min) plasma glucose levels and GIR remained unaffected throughout the study. Oxytocin seems also to potentiate glucose-induced insulin secretion as evidenced by hyperglycemic glucose clamp. In conclusion, pharmacological doses of oxytocin seem to exert a prevalent hyperglycemic effect by a combined action at the liver site (as glycogenolytic agent) and at the endocrine pancreas (as a stimulatory agent of A cell secretion).
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PMID:Pharmacological doses of oxytocin affect plasma hormone levels modulating glucose homeostasis in normal man. 306 8

The relative dependence or independence of the secretion of the neurohypophysial hormones, arginine vasopressin and oxytocin, was investigated using a wide variety of stimuli reported to cause the secretion of one or the other hormone. Differences in species, animal preparations, sampling techniques, assays, and other factors make comparison of many previous studies difficult. The aim of this study was to overcome these problems by using the same methodology, animal species, and assays to compare vasopressin and oxytocin release. To further strengthen the analysis, determinations of vasopressin and oxytocin were done in the same blood samples. The results demonstrated that during simultaneous release of both hormones, vasopressin is released in greater proportion following restraint stress, hemorrhage, isotonic hypovolemia, and nicotine, whereas oxytocin is released in greater proportion following endotoxin or hypertonic saline. Vasopressin was released without oxytocin following diethylstilbestrol. Oxytocin was released without concomitant vasopressin release following exercise, hypothermia, hyperthermia, labour, and lactation. Neither oxytocin nor vasopressin release was observed following thyroid-releasing hormone or insulin-induced hypoglycemia. These data illustrate the marked flexibility of the hypothalamo-neurohypophysial system that regulates secretion of vasopressin and oxytocin.
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PMID:Simultaneous and independent release of vasopressin and oxytocin in the rat. 337 May 33


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