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)

Increased knowledge on the mechanisms whereby corticotropin releasing hormone (CRH) and opioid peptides mediate the effects of stress has helped us to understand the relationship between stress and disturbed reproductive function. Increases of CRH and beta-endorphin in the hypothalamus in stressful situations inhibits the secretion of gonadotropins, oxytocin and vasopressin. This may lead to amenorrhea, which often is a consequence of intensive training or psychological stress, or it may disrupt parturition and lactation. There is a relationship between ovarian function and opioid peptides in the hypothalamus. Opioid peptides increase during puberty and fall at the menopause. Oestradiol and progesterone increase beta-endorphin concentrations in the luteal phase of the menstrual cycle, and this is followed by a rapid fall at menstruation. These changes may mediate symptoms typical of the premenstrual syndrome. Rather intensive exercise is required to increase plasma concentrations of beta-endorphin and corticotropin. During labour the amounts of beta-endorphin and corticotropin reach the values found in athletes during maximal exercise. The placenta produces increasing amounts of CRH towards the end of pregnancy which may help the mother and fetus to withstand the increased demands of labour. The placenta may thus be involved in the adaptation of the stress mechanism during pregnancy. CRH has also a paracrine function in different biological processes of the placenta and fetal membranes. It is possible to counteract the deleterious effects of stress on reproductive function by the administration of opiate antagonists. Induction of ovulation with naltrexone has been shown in patients with hypothalamic amenorrhea but the effect on fertility is not known.
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PMID:Corticotropin-releasing hormone and opioid peptides in reproduction and stress. 175 18

After a short introduction into the general topic, the catecholamine-induced increase of leukocytes in which the granulocytes are predominant after short-term exercise is discussed. The reduction of lymphocytes is associated with work-dependent cortisol increase after long-term exercise or 1 h after strenous work. The catecholamine-stimulated lymphocytes increase could be explained by the liberation of the cells from the endothelial vessel wall after catecholamine interaction with the beta-adrenoceptors and by mobilization from lymph nodes and spleen after beta-adrenergic stimulation. Catecholamines reduce the proliferation of lymphocytes and the degranulation of mast cells, preventing hypersensitivity reaction due to inhibited mediator liberation. The influence of cortisol and cytokines and vice versa is discussed. The hormonal changes after runs of different intensities and duration are demonstrated; they show an interaction with immunological regulation. The neuroimmune modulation after physical and psychological stress also has to be considered in immune regulation since under this condition the secretion of encephalins, endorphins, ACTH, and cortisol is increased. The significance of enhanced vasopressin secretion causing postural fainting by vagovasal reaction indicates also the effect of a neuropeptide which is related to immunological reactions. In the changes of lymphocyte subclasses, the homing effect of these cells should be regarded. Advices which can improve the immunologic behaviour, avoiding susceptibility to infections by well-conducted training regimens and adequate periods of regeneration time, are necessary.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction between hormones and the immune system. 189 95

Oxytocin (OT), arginine-vasopressin (AVP), memory, and mood changes were measured in relation to the psychological stress of exposure to uncontrollable noise (UN), with the physical stress of exposure to the identical, but controllable, noise (CN) as a comparison. Four experiments were performed. In the first, UN but not CN resulted in OT increases in women but not in men; neither treatment altered plasma AVP. No significant changes were detected in the second study, but in the third women again showed an OT response to UN. In both the first and third study the OT response was found in only a proportion of the women exposed to UN. This result was analysed further in the fourth study, in which the stress-induced OT response occurred in high, but not in low, emotionality women. In the fourth, but not in the third, study there was an indication that OT increases may be associated with a general impairment of memory. There was no evidence to support an enhancement of negative memories after exposure to UN. Exposure to noise generally produced a worsening of mood, with no consistent differences between the UN and CN conditions. This is the first report of an OT response to psychological stress in human subjects.
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PMID:Psychological stress of exposure to uncontrollable noise increases plasma oxytocin in high emotionality women. 236 15

Examination of the cardiovascular effects produced by peripheral administration of peptide sequences derived from adrenocorticotropic hormone (ACTH) led to the discovery of the pressor, cardioaccelerator, and natriuretic actions of intravenous (iv) ACTH-(4-10). Based on pharmacological studies in rats with alpha- and beta-adrenergic receptor antagonists, the cardiovascular effects of this peptide appeared to be mediated by the release of catecholamines. A peptide sequence analogous to ACTH-(4-10), gamma-melanocyte-stimulating hormone (gamma-MSH), possesses greater than 100-fold more cardiovascular activity and 1,000-fold more natriuretic activity than ACTH-(4-10). The pressor effect of iv gamma-MSH peptides appears to be dependent on the maintenance of preganglionic sympathetic drive, with no significant contribution of circulating vasopressin or angiotensin II. However, the presence of central vasopressinergic, and perhaps angiotensinergic, pathways appears to be crucial for expression of the full pressor effect of circulating gamma-MSH. Further evidence for the potential importance of the central nervous system (CNS) in these cardiovascular effects was obtained from central lesion experiments and a comparison of intracarotid vs. intrajugular infusions. Structure-activity studies suggested that the cardiovascular effects of ACTH-(4-10) or gamma-MSH are dependent on an Arg-hydrophobic amino acid sequence, located at or near their COOH-terminal. A similar requirement for biological activity is found in molluscan cardioexcitatory peptides, and the molluscan peptides have cardiovascular effects in rats, which resemble ACTH-(4-10) or gamma-MSH. This suggests that peptides of the gamma-MSH family are the pharmacological analogues, and perhaps the physiological homologues, of a cardioexcitatory family of peptides found in molluscs and birds. Elevated circulating levels of peptides derived from the NH2-terminal of pro-opiomelanocortin (POMC) have been found in psychological stress, cardiovascular distress, and hemorrhage. Increases in central sympathetic drive are common to all of these states. gamma-MSH peptides have been localized to POMC neurons in the arcuate nucleus and nucleus commissuralis of the rat. Projections from the latter nucleus innervate hindbrain vasomotor centers. Intraventricular administration of gamma-MSH produces prolonged elevation of mean arterial pressure. gamma-MSH peptides may provide a link between humoral and neurogenic mechanisms in cardiovascular regulation and could potentially be important neurotransmitters for central control of the cardiovascular system.
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PMID:ACTH-(4-10) through gamma-MSH: evidence for a new class of central autonomic nervous system-regulating peptides. 255 43

The effects of intravenous injections of naloxone (2 mg/kg), morphine (0.3 mg/kg) and saline vehicle on plasma concentrations of cortisol, prolactin, vasopressin and oxytocin were assessed in sheep (N = 10) when in their social groups (basal conditions) and during a period of isolation (psychological stress). Blood samples were collected by jugular venipuncture before and during the 60-min period following drug administration. Plasma hormone concentrations were determined by radioimmunoassay. Under basal conditions, cortisol levels were increased after naloxone (36-48%), but not after morphine or saline, and concentrations of prolactin, vasopressin and oxytocin did not change. Under stress conditions, (1) cortisol concentrations were elevated throughout the 60-min sampling period after naloxone or saline but for only 20 min after morphine; maximum increases observed were 161% (naloxone), 150% (saline) and 112% (morphine); (2) prolactin levels were raised after saline (85-129%) and morphine (55-61%) but were unchanged after naloxone; (3) vasopressin concentrations decreased transiently (43%) after saline but not following naloxone or morphine; and (4) oxytocin levels did not change after any treatment. These results indicate that endogenous and exogenous opioids modulate cortisol release in nonstressed sheep, and cortisol and prolactin secretion in sheep subjected to psychological stress. The nature of the anterior pituitary responses induced, together with the absence of a discernible effect on posterior pituitary function, suggest that the central opioid systems involved are similar in sheep and primates but different from those in the rat.
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PMID:Opioid influences on pituitary function in sheep under basal conditions and during psychological stress. 256 Feb 23

The effect of stress on drinking, water balance and endocrine profile was studied using ten castrated rams. Individual sheep were exposed to 30-h periods of total isolation (psychological stress) or physical separation from their social group (control). Plasma was analysed for haematocrit, osmolality, electrolyte levels and concentrations of cortisol and arginine vasopressin. Isolation stress significantly reduced water intake, increased haematocrit and plasma concentration of cortisol, but did not alter osmolality or vasopressin concentration. The physiological effects of this self-imposed water restriction contrast with those obtained by depriving the sheep of water for 24 h under conditions that were not stressful, i.e. by keeping them grouped together. These results suggest that cortisol may act to defend plasma volume in sheep exposed to acute stress. The results also indicate that vasopressin probably should not be considered to be a 'stress hormone' in the sheep.
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PMID:Endocrine and behavioural factors affecting water balance in sheep subjected to isolation stress. 381 41

20 normotensive subjects (10 with a family history of hypertension) were investigated as to whether moderate salt restriction and/or a high potassium intake had a beneficial effect on blood pressure regulation and prevention of hypertension. In all subjects a moderate reduction of salt intake from 200 to 50 mmol/day over 2 weeks reduced the rise in blood pressure induced by various doses of noradrenaline (0.1, 0.2, and 0.4 microgram/kg/min). Furthermore, of 20 subjects 12 (8 with a family history of hypertension) responded to salt restriction with a fall in systolic or diastolic blood pressure of at least 5 mm Hg. There were no significant differences in plasma renin, aldosterone, vasopressin, and catecholamine levels between responders (salt-sensitive subjects) and non-responders, but salt-sensitive subjects had a mean baseline diastolic blood pressure which was higher than that of salt-insensitive subjects by 13 mm Hg (77.3+/-3.26 vs. 64.6+/-2.06, p less than 0.001). A high potassium intake reduced diastolic blood pressure by at least 5 mm Hg in 10 out of 20 subjects, of the 10 7 had a family history of hypertension and 9 responded to salt restriction. A high potassium intake also improved compliance with a low salt regimen, promoted sodium loss, prevented the rise in plasma catecholamines induced by a low salt diet, and increased the sensitivity of the baroreceptor reflex. These four effects occurred in the group as a whole and were probably the means by which a high potassium intake reduced blood pressure. In all subjects 2 weeks of a combined low sodium/high potassium intake reduced blood pressure rises induced by mental stress or noradrenaline infusion by 10 mm Hg. The results of this study suggest that moderate salt restriction combined with a high potassium intake helps to prevent hypertension, that salt-sensitive subjects exist, and that these individuals would profit most.
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PMID:Low sodium/high potassium diet for prevention of hypertension: probable mechanisms of action. 611 84

1. Twenty-one normotensive subjects were studied to assess any possible benefits of moderate salt restriction and of high potassium intake in the prevention of hypertension in man. 2. The effects of salt reduction from 200 to 50 mmol/day and/or of an increase of potassium intake from 80 to 200 mmol/day over a 2 week period, on blood pressure, plasma noradrenaline, adrenaline, vasopressin, renin and aldosterone, were measured both at rest and after mental stress. The effects of graded infusion of noradrenaline on blood pressure and heart rate were also studied. 3. Salt restriction lessened the increase of blood pressure during noradrenaline infusion; the combination with high potassium intake also reduced the pressure rise after mental stress. There were no major changes in plasma levels of vasopressin and adrenaline. Plasma noradrenaline increased during the low sodium diet. 4. High potassium intake improved baroreceptor function as revealed by the greater decrease in heart rate for a given rise in pressure after noradrenaline infusion. 5. The results of this study are compatible with a protective effect of a practicable low sodium/high potassium diet on the development of human hypertension.
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PMID:Effect of moderate salt restriction and high potassium intake on pressor hormones, response to noradrenaline and baroreceptor function in man. 700 23

Chronic osmotic stress inhibits, while repeated physical stress can increase pituitary ACTH responsiveness to a novel stress. The interaction between these effects was studied in rats subjected to repeated i.p. injection of hypertonic saline, a strong aversive stimulus with osmotic and painful and psychological stress components, for 14 days. Hypertonic saline injection caused marked drinking responses, transient increases in plasma vasopressin (VP), and marked increases in VP mRNA and irVP in magnocellular cell bodies in the hypothalamus. Parvicellular activity was also enhanced as indicated by increases in VP immunostaining in the external zone of the median eminence and CRH mRNA and irCRH in the PVN. Plasma ACTH levels increased 10-fold after 30 min hypertonic saline injection, returning to basal levels in 4 h, and there was no desensitization of the ACTH responses after repeated injections (from basal values of 76 +/- 10 to 782 +/- 57, 788 +/- 83 and 779 +/- 31 pg/ml 30 min after the first, 4th and 14th injection, respectively). Basal ACTH levels were normal 24 h after the last injection, but pituitary POMC mRNA levels were increased by 95%, and ACTH responses to a novel stress (15 min immobilization) were significantly larger than in controls (P < 0.01) despite increases in morning plasma corticosterone levels (1.5 +/- 0.4 and 9.2 +/- 3.1 micrograms/dl in controls and stressed rats, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of the hypothalamic pituitary adrenal axis during chronic stress: responses to repeated intraperitoneal hypertonic saline injection. 811 92

Changes in neuropeptide gene expression in the hypothalami of sheep subjected to psychological stress (isolation, 1 h; n = 3) or dehydration (48 h; n = 3) were examined using in-situ hybridization histochemistry. Compared with non-stressed euhydrated control animals (n = 3), isolation induced significant accumulation of mRNA for corticotrophin-releasing hormone, pro-enkephalin and pro-dynorphin (DYN) in the paraventricular nucleus (PVN), but no change in mRNA content within the supraoptic nucleus (SON). By contrast, dehydration significantly increased DYN mRNA in the magnocellular neurones of the PVN and SON. However, neither isolation nor dehydration altered the expression of mRNA for vasopressin (AVP) in either the PVN or the SON. These results indicate that in the ovine hypothalamus (1) stress represents a powerful stimulus to co-ordinated neuropeptide synthesis and (2) expression of DYN mRNA and AVP mRNA may be independently regulated during changes in plasma osmolality.
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PMID:Isolation- and dehydration-induced changes in neuropeptide gene expression in the sheep hypothalamus. 829 74

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