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)

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

Median eminence corticotropin-releasing factor (CRF) and arginine vasopressin (AVP) and pituitary and peripheral plasma adrenocorticotropin (ACTH) and AVP were measured in male Wistar rats 1 and 2 weeks after bilateral adrenalectomy (ADX), sham operation (SHAM) or dexamethasone-treatment (DEX). Median eminence AVP content was unchanged 1 week after ADX but was significantly elevated 2 weeks after ADX, whereas CRF activity was reduced at 1 week after ADX and returned to control range at 2 weeks. Anterior pituitary ACTH content was elevated but posterior pituitary AVP content was reduced at 1 and 2 weeks after ADX. Plasma ACTH was greatly elevated in ADX rats and reduced in DEX rats, whereas plasma AVP did not differ significantly between these two groups or the control group. When ADX and SHAM rats were laparotomized under ether, plasma ACTH increased greatly, but this elevation was prevented by DEX treatment. The plasma AVP level was elevated in all three groups 2.5 min after onset of stress but returned to the basal range at 20 min. Median eminence CRF and AVP and pituitary ACTH and AVP were not significantly changed after onset of stress. These results indicate that the vasopressin and CRF-ACTH responses were not consistent in the median eminence, pituitary and peripheral plasma and suggest that vasopression is not involved in the feedback and acute stress mechanism of CRF-ACTH secretion. However, we have to measure CRF activity and AVP concentration in the hypophysial portal blood to confirm this conclusion.
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PMID:Vasopressin and CRF-ACTH in adrenalectomized and dexamethasone-treated rats. 625 47

Among other defects in water metabolism, adrenal insufficiency is associated with an inability to concentrate urine maximally in both man and experimental animals. Recent studies in the rabbit cortical collecting tubule have suggested indirectly that this defect may result from impaired cyclic AMP (cAMP) formation in response to antidiuretic hormone stimulation. In the present study, we examined key elements of arginine vasopressin (AVP)-dependent cAMP metabolism in the papillary collecting duct (PCD), microdissected from 8-d adrenalectomized (ADX) and sham-operated control rats. AVP-sensitive adenylate cyclase (ADC) activity in PCD did not differ between control and ADX rats. cAMP-phosphodiesterase activity (cAMP-PDIE), measured at 10(-6) M cAMP substrate concentration, was significantly higher (delta + 31.6%) in PCD of ADX rats compared with controls. Incubation of intact PCD from ADX rats with AVP resulted in an accumulation of cAMP (delta - 48.5%) significantly lower than observed in control PCD. Chronic administration of dexamethasone reduced cAMP-PDIE activity in PCD of ADX rats to levels close to or below those observed in control rat PCD, and also resulted in a restoration of AVP-stimulated cAMP accumulation to levels approaching control values. Results indicate that the impaired maximal urinary concentrating ability associated with adrenal insufficiency may be due, at least in part, to a reduced accumulation of cAMP in response to AVP in the PCD. This decreased cAMP accumulation results from increased cAMP-PDIE activity in the PCD of ADX rats and can be corrected by administration of glucocorticoid.
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PMID:Concentrating defect in the adrenalectomized rat. Abnormal vasopressin-sensitive cyclic adenosine monophosphate metabolism in the papillary collecting duct. 630 13

Arginine-vasopressin (AVP) plays significant roles in neuroendocrine and autonomic regulation, and in processing of cognitive information. Its synthesis and secretion are subject to control by circulating glucocorticoids. The lateral septum and subdivisions of the hippocampus are innervated by AVP-ergic fibres and, together with AVP-producing neurons in the hypothalamic paraventricular nucleus, are major neural targets of glucocorticoid negative feedback. In this study, we investigated the effects of chronic adrenalectomy (ADX) and subsequent treatment with supraphysiological doses of corticosterone (B) on the gene expression of AVP receptors of the V1a subtype in the septum, hippocampus and hypothalamic arcuate (ARC) nucleus using semiquantitative in situ hybridization histochemistry. Adrenalectomy did not alter AVP receptor expression in any of the structures studied. Supplementation with B significantly decreased AVP receptor expression in the lateral septum and hippocampus, whereas receptor mRNA levels in the ARC were indistinguishable from those measured in controls. In a complementary study, we investigated the binding characteristics of V1 AVP receptors in membrane preparations from the hippocampus. Adrenalectomy significantly decreased the number of AVP binding sites, and chronic corticosteroid treatment was associated with a further suppression of AVP receptor concentrations in this structure. These results indicate that the gene transcription of V1a AVP receptors in the brain is regulated by circulating glucocorticoids in a site-specific fashion that largely reflects the corticosteroid sensitivity of the corresponding structure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Corticosteroid regulation of gene expression and binding characteristics of vasopressin receptors in the rat brain. 755 Nov 84

In the present investigation, we examined the influence of both genetic background and sex factors in the rat hypothalamo-pituitary-adrenal (HPA) axis function under both basal and post adrenalectomy (ADX) conditions. For these purposes adult female and male rats, from Sprague-Dawley (S-D), Fischer (F344/N), Lewis (LEW/N) and Buffalo (BUF) strains, were decapitated in basal condition or several (2, 7 and 14) days after ADX. Plasma stress hormones levels and adrenal corticosterone (B) concentration as well as peptide (ACTH, CRH and vasopressin, AVP) content in different tissues (anterior pituitary, AP; medial basal hypothalamus, MBH), were then evaluated by specific assays. Our results indicate that: a) despite no sex- and strain-related differences in AP ACTH and MBH ACTH secretagogues in basal condition, there exits a clear sexual dimorphism in plasma ACTH levels as well as in both plasma and adrenal B concentrations, with values significantly higher in females than in males, regardless the strain; b) ADX abolished plasma B levels and increased AP ACTH output in a time-dependent fashion up to the 14th day post surgery; c) AP ACTH content decreased 2 days after ADX, except in BUF female rats, thereafter tending to either recover or increase sham values by two weeks post ADX; d) ADX decreased MBH CRH at all periods studied, except in BUF female animals on day 14; e) ADX clearly diminished MBH AVP only in S-D rats, and f) a sexual dimorphism was also found in AP ACTH in 7-day-ADX S-D rats and in 14-day-ADX S-D and F344/N animals; also, a dimorphic pattern in MBH CRH was found in 7-day-ADX S-D as well as in 14-day-ADX F344/N and LEW/N rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sex and strain variability in the rat hypothalamo-pituitary-adrenal (HPA) axis function. 775 81

Negative feedback regulation of basal activity in the hypothalamo-pituitary-adrenal (HPA) axis requires less corticosterone (B) at the trough (morning) than at the peak (evening) of the diurnal rhythm. It has been hypothesized that in the morning in rats, occupation of the high affinity, type I corticosteroid receptors is sufficient to inhibit adrenalectomy (ADX)-induced increases in plasma ACTH secretion, whereas in the evening, regulation occurs through the occupation of the lower affinity type II corticosteroid receptors. To examine this hypothesis, the sensitivity of ACTH to inhibition by two different doses of B or of dexamethasone (DEX) were compared in ADX rats killed in the morning or the evening (B has a higher affinity for type I receptors in vitro and in vivo; in vivo, DEX has a higher affinity for type II receptors). The requirement for greater concentrations of corticosteroids to inhibit ACTH secretion in the evening was verified. The effect of these treatments on the number of neurons immunoreactive for vasopressin (AVP) and on the expression of AVP messenger RNA (mRNA) in the parvocellular portion of the paraventricular nuclei was also examined. In the morning, plasma concentrations of B equivalent to the IC50 for the reduction of plasma ACTH in the morning reduced the amount of AVP mRNA, but not immunoreactive AVP cell number as compared with ADX rats. DEX reduced plasma ACTH in the morning but did not prevent high levels of expression of AVP mRNA or protein. AVP mRNA was more sensitive to B in the morning than in the evening. Antagonist to the type I receptor (spironolactone) given chronically to ADX rats treated with B increased plasma ACTH secretion at both times of day, even though the plasma B concentrations suggested occupancy of a large proportion of the type II receptors. To test the hypothesis that an interaction between the type I and II receptor is necessary for the control of HPA activity at the peak of the diurnal rhythm, ADX rats were given B or DEX, alone or in combination. DEX reduced evening plasma ACTH only in the presence of very low concentrations of B, suggesting that for full potency, type II receptor occupation requires type I receptor occupation. In summary, these results demonstrate that occupation of type I corticosteroid receptors is capable of controlling basal activity in the HPA axis in the morning and that in the evening, type I receptor occupation potentiates the inhibition of plasma ACTH by occupation of type II receptors.
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PMID:Roles of type I and II corticosteroid receptors in regulation of basal activity in the hypothalamo-pituitary-adrenal axis during the diurnal trough and the peak: evidence for a nonadditive effect of combined receptor occupation. 811 68

The mechanism regulating pituitary CRH receptors during stress was studied by analysis of the changes in CRH receptor messenger RNA (mRNA) and CRH binding after acute and repeated stress and CRH and vasopressin (VP) administration in intact and adrenalectomized rats. Acute stress caused time- and stress type-dependent changes in pituitary CRH receptor expression. In situ hybridization studies showed biphasic changes in CRH receptor mRNA after immobilization stress for 1 h and decreases by 2 h (P < 0.01). Increases (P < 0.01) were seen 4 and 8 h after the initiation of the stress, and a return to near basal levels by 12 and 18 h. A different pattern, with a decrease by 4 h (P < 0.01) and levels similar to controls after 12 and 18 h, was observed after a single ip injection of hypertonic saline (1.5 M NaCl). Binding autoradiography showed significant increases in pituitary CRH binding 4, 10, and 12 h after immobilization stress, but significant decreases 4, 12, and 18 h after ip hypertonic saline. In contrast, repeated immobilization or ip hypertonic saline for 8 or 14 days increased pituitary CRH receptor mRNA, and CRH binding was decreased. To determine the role of hypothalamic CRH and VP on these stress-induced changes, rats were injected for 14 days with CRH, VP, or their combination at doses mimicking stress levels in pituitary portal circulation (1 microgram/day sc). Repeated injection of CRH or VP increased CRH receptor mRNA and CRH binding (P < 0.05). CRH receptor mRNA levels further increased after combined administration of CRH and VP (P < 0.01), but CRH binding showed a tendency to decrease. The role of glucocorticoids on CRH receptor regulation was studied by analysis of the effects of stress on CRH receptor mRNA and CRH binding in adrenalectomized (ADX) rats with and without corticosterone replacement in the drinking water. Although in 6-day ADX rats pituitary CRH receptor mRNA levels were markedly reduced after acute immobilization, glucocorticoid replacement restored the stimulatory effect of stress to levels observed in intact rats. Similarly, a single sc injection of CRH (1 microgram) decreased CRH receptor mRNA in ADX rats but not in glucocorticoid-replaced ADX rats. CRH binding showed the expected decrease after ADX and was unchanged after stress or CRH injection. The increased pituitary CRH receptor mRNA after stress suggests that stress-induced CRH receptor down-regulation is due to increased receptor occupancy and internalization rather than to a decrease in receptor synthesis. The data suggest that increased hypothalamic secretion of CRH and VP mediates the delayed up-regulatory effect of stress on CRH receptor mRNA, and that resting levels of glucocorticoids are required for this effect. In addition, increased VP levels are permissive for the down-regulation of CRH binding induced by chronic pituitary exposure to stress levels of CRH.
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PMID:Regulation of messenger ribonucleic acid for corticotropin releasing hormone receptor in the pituitary during stress. 875 51

Previous studies showed that various stressors can induce delayed (days) and long-lasting (weeks) increases of vasopressin (AVP) stores in terminals of CRH neurons in the external zone of the median eminence (ZEME) in adult rats. Here we tested whether this long-lasting neuroplastic change can be induced by mechanisms other than stressor provoked transsynaptic activation of CRH neurons. Single i.v. administration of a CRH antibody to adult rats causes a delayed (at least 1 day) and long-lasting (3 weeks) increase (2-3 fold) of AVP stores in the ZEME without affecting CRH stores. It suppresses ether-induced ACTH-responses for at least 8 days. In contrast, resting pm levels of ACTH and corticosterone (CORT) were suppressed only during the first 2 days. Suppletion of CORT levels on day 1 and 2, attenuates the antibody induced AVP-increase by 57%. CRH-immunoneutralization did not affect the AVP stores in CORT supplemented ADX rats. Thus, long-term increases of AVP stores induced by CRH-immunoneutralization largely depend on short-term suppression of pm CORT levels. Accordingly, single administration of metyrapone, which causes a transient suppression of pm CORT levels, increases AVP (1.5 fold) but not CRH stores one week later. We conclude that transient activation of hypothalamic CRH neurons results in long-lasting increases in AVP co-expression irrespective of the nature of the activating stimulus.
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PMID:Transient suppression of resting corticosterone levels induces sustained increase of AVP stores in hypothalamic CRH-neurons of rats. 902 40

1. Arginine vasopressin (AVP) is synthesized in specific brain regions including the magnocellular and parvocellular divisions of the paraventricular nucleus (PVN). Whereas magnocellular AVP responds to osmotic stimuli and functions mainly--although not exclusively--as an antidiuretic hormone, that produced in the parvocellular region controls the hypothalamus-pituitary-adrenal (HPA) axis, in conjunction with CRF. 2. In view of the reported sex differences in control of the HPA axis, we studied if these also pertain to AVP mRNA in the PVN of ovariectomized-estrogenized female rats and male rats determined by in situ hybridization. AVP mRNA was measured in intact rats, adrenalectomized (ADX) rats and ADX receiving dexamethasone (DEX) of both sexes. 3. Computerized autoradiography showed that in both sexes, AVP mRNA levels in the parvocellular division of the PVN increased after adrenalectomy and decreased following DEX. However, the reduction by DEX was more pronounced in female rats. No changes were found for the magnocellular region. Grain counting analysis of the medial-medial (MMP) and medial-lateral (MLP) subdivisions of the parvocellular region showed that the average number of grains per cell area in the MMP region of adrenally intact female rats was higher than that in males. However, in females there was no clear-cut effect of adrenalectomy on AVP mRNA levels, although the reduction after DEX treatment was again greater than that in male rats. Frequency histograms constructed by plotting the number of cells vs the number of grains per area substantiated the enhanced glucocorticoid negative control of AVP mRNA in the MMP and MLP of female rats. 4. The results indicated a sexual dimorphism in the glucocorticoid-dependent plasticity of AVP mRNA levels in the PVN. Because AVP mRNA expression differs between sexes under basal levels, after adrenalectomy, and after DEX treatment, these plastic changes may differentially condition the response to stress. Taking into consideration that stress and AVP may play a role in neurogenic hypertension, the possibility of sexual dimorphisms in AVP control may be important to assess the role of sex hormones in stress and steroid-derived hypertension.
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PMID:Sex difference in glucocorticoid regulation of vasopressin mRNA in the paraventricular hypothalamic nucleus. 944 52

Twenty days after bilateral adrenalectomy (ADX) or immediately after the last of three 6-h long immobilization periods, the levels of hypothalamic and neurohypophyseal L-[35S]Cys-labeled arginine vasopressin (AVP), oxytocin (OT), and somatostatin-14 (SRIF) (only stressed animals) were measured simultaneously in male Wistar rats, after third ventricular administration of the labeled precursor, via guide-cannulae. The acetic acid-extracted labeled peptide fractions were purified by two sequential HPLC steps. After a 4 h period of labeling, only L-[35S]Cys-AVP was selectively increased in the hypothalami of ADX-ized rats, compared to the sham-operated animals, possibly reflecting a significant activation of the paraventricular parvocellular (PVC) AVP/corticotropin-releasing factor (CRF) neurons. The increased accumulation of neurohypophyseal L-[35S]Cys-labeled AVP and OT in these animals, without changes in the endogenous levels of these peptides, as measured by UV absorbance, also suggests a moderate activation of the magnocellular (MGC) AVP and OT neurons, as a consequence of adrenal insufficiency. In response to immobilization stress, levels of L-[35S]Cys-OT were selectively increased in the hypothalami and corresponding neurohypophyses, 2 h and 4 h after receiving the label, concomitantly with a statistically significant reduction in the stores of OT in the neural lobes. AVP and SRIF biosynthesis remained unaffected by immobilization; the neurohypophyseal AVP stores likewise remained unchanged. These observations suggest the selective activation of MGC-OT neurons in response to chronic immobilization stress. Selective increases in hypothalamic L-[35S]Cys-AVP in ADX-ized rats, and in hypothalamic L-[35S]Cys-OT in chronically stress-immobilized rats, are presented as a measure of PVC-AVP/CRF and MGC-OT neuronal activation, respectively.
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PMID:Vasopressinergic, oxytocinergic, and somatostatinergic neuronal activity after adrenalectomy and immobilization stress. 956 8

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