UNIPROT:P01185 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the ability of the nitric oxide (NO) donor 3-morpholino-sydnonimine (SIN-1) to release adrenocorticotropic hormone (ACTH) and up-regulate hypothalamic neurones following its intravenous (i.v.) injection. i.v. SIN-1 (0.2-1.8 mg/kg) produced dose-related increases in plasma ACTH levels which were blocked by prior neutralization of endogenous corticotropin-releasing factor (CRF) but not by vasopressin antibodies. In contrast, the intracerebroventricular (i.c.v.) injection of 50-microg SIN-1 released significantly larger amounts of ACTH, a response blunted by either CRF or vasopressin antibodies. While i.c.v. SIN-1 markedly up-regulated transcripts of the immediate early gene NGFI-B in the paraventricular nucleus (PVN) of the hypothalamus, no such response was observed following the i.v. injection of up to 2.0 mg/kg SIN-1. Finally, we found no evidence that the influence of the peripheral administration of SIN-1 on ACTH secretion is mediated by altered pituitary responsiveness to CRF or vasopressin. The fact that NO has a profound hypotensive influence in the periphery suggests that it may have released ACTH through this mechanism, although the absence of PVN neuronal response in regions that are activated by decreased blood pressure casts some doubt on this hypothesis. As the systemic injection of arginine derivatives that block NOS activity potently augment the ACTH response to circulating pro-inflammatory cytokines or vasopressin, the present findings indicate that the mechanisms responsible for this phenomenon are distinct from those responsible for ACTH released by i.v. SIN-1.
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PMID:Comparison between the influence of the intravenous and intracerebroventricular injection of a nitric oxide donor on adrenocorticotropic hormone release and hypothalamic neuronal activity. 1212 94

This work examines the role of nitric oxide (NO) in the periphery (i.e., on the pituitary) and the brain (particularly on corticotropin-releasing factor [CRF] and vasopressin [VP] neurons in the paraventricular nucleus [PVN] of the hypothalamus) as a modulator of the ACTH response to lipopolysaccharide. We previously showed that NO restricted the pituitary response to VP while it facilitated the synthesis of PVN CRF and VP. In our experience, only relatively high doses of lipopolysaccharide (>50 microg/kg, injected intravenously [i.v.]) cause detectable increases in PVN neuronal activation. Our hypothesis, therefore, was that pituitary NO-VP interactions would predominate in rats injected with a low dose of lipopolysaccharide (0.5 microg/kg, i.v.) while the stimulatory influence of the gas on PVN neuronal activity would play an important role following i.v. injection of a large dose of lipopolysaccharide (50 microg/kg, i.v.). We observed that the ability of 0.5 microg/kg lipopolysaccharide to release ACTH was significantly enhanced by the subcutaneous (s.c.), but not the intracerebroventricular (i.c.v.) injection of L-NAME, an arginine derivative that blocks NO synthesis. The effect of s.c. L-NAME was reversed by immunoneutralization of endogenous VP, which indicated that in this model, the ability of lipopolysaccharide to release ACTH depended, at least in part, on the influence exerted by NO on the pituitary response to VP. In rats injected with the high lipopolysaccharide dose, the s.c. injection of L-NAME decreased plasma ACTH levels compared to those in rats pretreated with the vehicle. The effect of s.c. L-NAME was not significantly altered by VP antibodies. These results indicate that in this model, the primary influence of NO was exerted in the PVN and/or its afferents and that it did not depend on a peripheral, VP-mediated effect of the gas. On the one hand, these data are at odds with our finding that the i.c.v. injection of L-NAME only marginally altered the ACTH response to the large dose of lipopolysaccharide. As i.c.v. injected L-NAME should have primarily decreased hypothalamic, but not pituitary NOS, its only modest influence on ACTH release may have been due to a balance between stimulating and inhibiting effects of NO within the brain. As high doses of lipopolysaccharide increase brain levels of prostaglandin, monoamine, and proinflammatory cytokines, it will be important to investigate the influence exerted by NO on these secretagogues and on their interactions with PVN CRF and VP neurons, which may help us resolve the issues raised by our results. Collectively, these data support our hypothesis that the mechanisms mediating the ACTH response to a low lipopolysaccharide concentration involve the inhibitory VP-mediated influence of NO on pituitary activity. By contrast, the stimulatory effect of high doses of lipopolysaccharide on ACTH release depends, at least in part, on the ability of NO to upregulate PVN neuronal activity.
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PMID:Role of nitric oxide in regulating the rat hypothalamic-pituitary-adrenal axis response to endotoxemia. 1279 48

The contraction of arteries is influenced by many factors. The aim of this research was to analyze how an artery's reactivity, regulated by arginine-vasopressin changes in time, from the moment of death onwards. The research was conducted on rats' perfundated caudal arteries in four different time groups, with reference to two independent empirical models: I--with the sole use of intracellular Ca ions; and model II--with the sole use of extracellular Ca ions. The influence of NO on the arteries was analyzed in the two models, with the use of the NOS inhibitor. The research had shown that with the passing of time, beginning from the moment of death onwards, the process of emission of intracellular Ca ions and the infusion/transport of Ca ions from extracellular areas/spaces is inhibited. The use of the NOS inhibitor increases the artery's reactivity provided that the infusion of Ca ions from extracellular areas is also prevalent.
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PMID:[The influence of the time of death, Ca ions and NO on the reactivity of rat's caudal artery regulated by arginine-vasopressin]. 1466 15

Depression is frequently associated with dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis, which leads to repeated episodes of hypercortisolemia. Hypothalamic paraventricular neurons are believed to trigger these processes by aberrant generation and/or release of corticotropin releasing hormone, oxytocin, vasopressin, and nitric oxide (NO). Recent findings from two independent laboratories have demonstrated that the suprachiasmatic nucleus, which in part controls the cellular activity of paraventricular neurons (PVN), is also involved in affective disorder. The aim of the present study was to elucidate by stereological analysis, whether suprachiasmatic nucleus (SCN) nitric oxide synthase and neurophysin generating neurons are affected in neuropsychiatric disorders. We show that compared to controls the number of nitric oxide synthase immunoreactive neurons is greatly reduced both in depression and in schizophrenia. In subjects with affective disorder there was a correlation between the number of NOS-expressing cells and duration of treatment with antidepressants. The number of neurophysin-expressing SCN neurons was also fewer in cases with mood disorder. It is concluded that SCN-derived NO may be a relevant pathophysiological factor in neuropsychiatric disorders.
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PMID:Hypothalamic nitric oxide synthase in affective disorder: focus on the suprachiasmatic nucleus. 1619 95

Endothelin (ET) peptides stimulate vasopressin (AVP) secretion via ET(B) receptors at hypothalamic loci. Nitric oxide modulates the actions of ET in the cardiovascular system and also influences neurotransmission and specifically suppresses firing of magnocellular neurons. The purpose of these studies was to ascertain whether nitric oxide, generated in response to ET(B) receptor stimulation, buffers the stimulatory effect of ET and suppresses AVP release. Studies were performed using a pharmacological approach in hypothalamo-neurohypophyseal explants from rats, and an alternative strategy using explants from mice with an inactivating mutation of neuronal NOS (nNOS-/-) and their wild-type parent strain. Whole explants in standard culture or only the hypothalamus of compartmentalized explants was exposed to the ET(B) selective agonist, IRL 1620 (10(-13) to 10(-8) M). Rat and wild-type mouse explants displayed similar responses, although absolute basal release rates were higher from murine explants. Maximal AVP release at 0.1 nM IRL 1620 was 311 +/- 63 (rat) and 422 +/- 112% basal x explant(-1) x h(-1) (mouse). Sodium nitroprusside (SNP; 0.1 mM) suppressed maximal AVP release to basal values. N(omega)-nitro-L-arginine methyl ester (L-NAME, 0.1 microM), which did not itself stimulate AVP secretion, more than doubled the response to 1 pM IRL 1620, from 136 +/- 28 to 295 +/- 49% basal x explant(-1) x h(-1) (P < 0.05) by rat explants. Explants from wild-type mice responded similarly. Explants from nNOS-/- mice had higher basal AVP secretory rate in response to 1 pM IRL 1620: 271 +/- 48 compared with 150 +/- 24% basal x explant(-1) x h(-1) (P < 0.05) from wild-type murine explants. In the nNOS-/-, SNP suppressed stimulated release, and L-NAME exerted no additional stimulatory effect: 243 +/- 38% basal x explant(-1) x h(-1). Thus nitric oxide inhibits the AVP secretory response induced by ET(B) receptor activation within the hypothalamo-neurohypophyseal system and is generated primarily by the nNOS isoform. The modulation of AVP secretion by ET and also nitric oxide can take place independently from their effects on cerebral blood flow, systemic hemodynamics, or the arterial baroreflex.
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PMID:Nitric oxide modulation of ET(B) receptor-induced vasopressin release by rat and mouse hypothalamo-neurohypophyseal explants. 1635 97

An organotypic cell culture (OCC) model of the rat hypothalamic paraventricular nucleus (PVN) was established to monitor intracellular calcium levels ([Ca(2+)](i)) of magnocellular neurons in response to glutamate and nitric oxide (NO). The histoarchitectural organization of these cultures was characterized either by immunohistochemical labeling of vasopressin, neuronal nitric oxide synthase (nNOS) and the neuronal marker NeuN or by the enzyme histochemical NADPH-diaphorase staining. A distinct NeuN positive cell population in 14-days old OCC's was confirmed as being the PVN by its vasopressin- and nNOS-immunostained neurons as well as by its NADPH-diaphorase labeling. Life cell imaging was performed using the [Ca(2+)](i) sensor Fluo-4 to measure [Ca(2+)](i) transients in response to bath applications of glutamate, high potassium (60 mM), and ATP. The glutamate-induced [Ca(2+)](i) response was mimicked by AMPA but not NMDA in the PVN. NMDA, however, elicited a [Ca(2+)](i) transient in a different area of the OCC that corresponds to the suprachiasmatic nucleus indicating the potential effectiveness of the stimulus. The AMPA-receptor blocker NBQX abolished the glutamate-induced response in the PVN. An inhibition of endogenous NO production by the NOS inhibitor L-NAME decreased the amplitude of AMPA- and glutamate-induced [Ca(2+)](i) rises. Taken together, these data suggest that AMPA mediates the glutamate-induced [Ca(2+)](i) rises within the PVN, where endogenous NO is able to modulate such glutamate signaling in OCC.
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PMID:AMPA receptor-induced intracellular calcium response in the paraventricular nucleus is modulated by nitric oxide: calcium imaging in a hypothalamic organotypic cell culture model. 1644 20

This study examined the age-related changes in nitric oxide synthase immunoreactivity (NOS-IR), survival and regeneration of magnocellular neurons in the hypothalamo-neurohypophyseal system (HNS) in rats following hypophysectomy. In adult animal, hypophysectomy induced a significant increase in NOS-IR in the supraoptic (SON), paraventricular nuclei (PVN) and median eminence (ME) by 3 days post-lesion. NOS sustained an increased level until 2 weeks after hypophysectomy and then returned to normal control level. In contrast, at postnatal day 7 (PN7), no obvious increase in NOS-IR was observed in the SON, PVN and ME following the injury compared with age-matched controls. At PN14, the same injury induced an increase in NOS-IR in SON, PVN and ME but the increase was more transient with peak NOS-IR at 3 days and returning to the corresponding control level at 1 week after hypophysectomy. In contrast to a striking age-dependent alteration in NOS-IR in the SON and PVN, hypophysectomy induced substantial degeneration of arginine vasopressin (AVP) and oxytocin (OT) neurons in the SON and PVN in both immature and adult rats and there was no obvious difference in neuronal survival after the same injury among these three groups of different ages by quantitative analysis. Following hypophysectomy, a large number of fibers were observed in the contact zone of the median eminence and the adjacent lumen of the third cerebral ventricle (V3) in adult rats, whereas few fibers could be found in the lumen of the V3 in the immature rats after the same injury. Relationships between NOS induction and magnocellular neuronal survival and regeneration were discussed.
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PMID:The response of magnocellular neurons of the hypothalamo-neurohyphyseal system to hypophysectomy, nitric oxide synthase expression as well as survival and regeneration in developing vs. adult rats. 1694 57

Noradrenalin (NA) regulates the expression of arginine-vasopressin (AVP) and oxytocin (OT) by magnocellular neurons in the supraoptic nucleus (SON) of the hypothamalus. Nitric oxide (NO) may be one of the factors involved in the NA signaling pathway regulating AVP and OT expression. To test this possibility, we used an ex vivo experimental model of mouse hypothalamus slices. Increases in AVP and OT levels in the SON were detected by immunohistochemistry and immunoenzyme assays after 1 hr and 4 hr incubations with NA (10(-4) M). There was also an increase in the expression and activity of neuronal NOS and inducible NOS in the SON as assessed by immunohistochemical and histoenzymological analysis of NADPH-diaphorase, whereas endothelial NOS was undetectable. To specify the role of NO, the slices were treated with NA and L-arginine methyl ester (L-NAME, an NOS inhibitor; 3 microM). This treatment for 1 hr abolished the NA-induced increase in AVP. Treatment with sodium nitroprusside (SNP, an NO donor; 0.1 mM) increased AVP levels, confirming that NO regulates AVP expression. Addition of 1 mM EGTA during the incubation with NA reduced the AVP increase by half, indicating that both nNOS and iNOS activities are involved in the regulation. A 1-hr treatment with L-NAME did not prevent the increase in OT induced by NA; similarly, treatment with SNP had no effect. These findings show that NO is involved in the regulation of AVP expression by NA and that NA control of OT expression is independent of NO.
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PMID:Noradrenergic regulation in mouse supraoptic nucleus involves a nitric oxide pathway only to regulate arginine-vasopressin expression and not oxytocin expression. 1762

The nitric oxide (NO) synthases (NOSs) system consists of three different isoforms, including neuronal (nNOS), inducible (iNOS), and endothelial NOSs (eNOS). The roles of NO in vivo have been extensively investigated in pharmacological studies with NOS inhibitors and in studies with mice lacking each NOS isoform. However, in the pharmacological studies, the specificity of NOS inhibitors continues to be an issue of debate, while in the studies with mice lacking each NOS isoform, compensatory mechanism by other NOSs appears to be involved. Thus, the ultimate roles of endogenous NO in our body still remain to be fully elucidated. To address this important issue, we have successfully developed mice in which all three NOS genes are completely disrupted. NOS expression and activities were totally absent in the triply n/i/eNOS(-/-) mice before and after treatment with lipopolysaccharide. While the triply n/i/eNOS(-/-) mice were viable, their survival and fertility rates were markedly reduced as compared with wild-type mice. The first noticeable phenotypes were polyuria, polydipsia, and renal unresponsiveness to vasopressin, characteristics consistent with nephrogenic diabetes insipidus. We subsequently observed that in those mice, arteriosclerosis is spontaneously developed with a clustering of cardiovascular risk factors. These results provide the first evidence that genetic disruption of all three NOSs causes a variety of cardiovascular diseases in mice in vivo, demonstrating the critical role of the endogenous NOSs system in maintaining cardiovascular homeostasis.
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PMID:[Development of genetically engineered mice lacking all three nitric oxide synthase isoforms]. 1782 17

Acute renal failure (ARF) is frequently associated with polyuria and urine concentration defects and it is a severe complication of sepsis because it increases the mortality rate. Inhibition of NF-kappaB activation has been suggested to provide a useful strategy for the treatment of septic shock. However, the impact on sepsis-induced ARF is still unclear. Therefore, we examined the effect of pyrrolidine dithiocarbamate (PDTC) and of small interfering RNA (siRNA) silencing NF-kappaB p50/p105 on sepsis-induced downregulation of vasopressin V(2) receptors and aquaporin (AQP)-2 channels using a cecal ligation and puncture (CLP) mouse model. CLP caused a time-dependent downregulation of renal vasopressin V(2) receptor and of AQP2 expression without alterations in plasma vasopressin levels. Renal activation of NF-kappaB in response to CLP was attenuated by PDTC pretreatment, which also attenuated the downregulation of V(2) receptor and AQP2 expression. Furthermore, a strong nuclear staining for the NF-kappaB p50 subunit throughout the whole kidney in response to CLP was observed. siRNA against NF-kappaB p50 attenuated the CLP-induced nuclear translocation of the p50 subunit and the CLP-induced downregulation of V(2) receptor and AQP2 expression. Additionally, PDTC and siRNA pretreatment inhibited the CLP-induced increase in renal TNF-alpha and IL-1beta concentration and NOS-2 mRNA abundance. Moreover, PDTC and siRNA pretreatment ameliorated CLP-induced hypotension and ARF. Our findings suggest that NF-kappaB activation is of importance for the downregulation of AQP2 channel and vasopressin V(2) receptor expression during sepsis. In addition, our data indicate that NF-kappaB inhibition ameliorates sepsis-induced ARF.
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PMID:Inhibition of NF-kappaB ameliorates sepsis-induced downregulation of aquaporin-2/V2 receptor expression and acute renal failure in vivo. 1982 75

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