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)

Hyponatremia in advanced cirrhosis and ascites or congestive heart failure (CHF) is the result of an inappropriate increase in vasopressin secretion, which acts through activation of specific V(2) receptors in the distal renal nephron to increase water reabsorption. This study investigates the efficacy and safety of 3 different doses of the V(2) receptor antagonist, VPA-985, in correcting hyponatremia over a 7-day inpatient study period. Forty-four hospitalized patients (33 patients with cirrhosis, 6 with CHF, and 5 with syndrome of inappropriate antidiuretic hormone (SIADH) were studied on a constant sodium intake, with VPA doses of 25, 125, and 250 mg twice daily or placebo. Serum sodium measurements were repeated after every daily dose, and the next dose withheld for excessive serum sodium rises. Fluid intake was adjusted according to previous 24-hour urinary outputs. Adverse events were based on clinical signs of dehydration or encephalopathy. VPA-985 produced a significant overall aquaretic response compared with placebo, with significant dose related increases in free water clearance (P <.05) and serum sodium (P <.05), without significant changes in orthostatic blood pressure or serum creatinine levels. Five patients (50%) on 250 mg twice daily had to have medication withheld on multiple occasions. End-of-study plasma vasopressin levels increased significantly in the 2 larger dose groups. In conclusion, VPA-985 appears effective and safe in appropriate doses in correcting abnormal renal water handling and hyponatremia in conditions associated with water retention. Higher doses of VPA-985 may produce significant dehydration and will require close monitoring with their use.
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PMID:A vasopressin receptor antagonist (VPA-985) improves serum sodium concentration in patients with hyponatremia: a multicenter, randomized, placebo-controlled trial. 1499 23

Hyponatremia in congestive heart failure (CHF) is associated with increased morbidity and mortality, underlining the importance of adequate assessment and treatment of this electrolyte imbalance in patients with CHF. Current treatment options for hyponatremia in CHF include hypertonic saline solution, loop diuretics, fluid restriction, and other pharmacologic agents, such as demeclocycline, lithium carbonate, and urea. Hypertonic saline solution must be administered with extreme caution because excessively slow or rapid sodium correction can lead to severe neurologic adverse effects. Loop diuretics are useful for reducing the water retention caused by CHF. However, the potent diuresis induced by agents such as furosemide results in loss of sodium and other essential electrolytes, which may exacerbate hyponatremia. Fluid restriction is only moderately effective and often difficult to implement in the hospital setting. Agents such as demeclocycline and lithium have potentially serious renal and cardiovascular side effects. The arginine vasopressin (AVP) receptor antagonists are a promising new class of aquaretic agents that increase free-water excretion while maintaining levels of sodium and other essential electrolytes. Tolvaptan (OPC-41061), lixivaptan (VPA-985), and conivaptan (YM-087) are currently under development for the treatment of hyponatremia. Although tolvaptan and lixivaptan are selective for the vasopressin-2 (V(2)) receptor responsible for the antidiuretic actions of AVP, conivaptan demonstrates activity at both the V(2) receptor and the V(1a) receptor responsible for the vasoconstricting properties of AVP. This dual receptor activity may be particularly useful in patients with CHF. These patients may benefit from the increased cardiac output, reduced total peripheral resistance, and reduced mean arterial blood pressure that results from V(1a) receptor blockade as well as the reduced congestion, reduced cardiac preload, and increased sodium concentrations induced by V(2) receptor antagonism.
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PMID:Current treatments and novel pharmacologic treatments for hyponatremia in congestive heart failure. 1584 53

Hyponatremia is a frequent and symptomatic electrolyte disorder for which specific treatments have been lacking. Hyponatremia is attributable to nonosmotic vasopressin stimulation and continued increased fluid intake. In the past, peptidic derivatives of arginine vasopressin proved that blockade of vasopressin V-2 receptors served to improve hyponatremia, however, these antagonists had intrinsic agonistic activity, too. In the past decade, random screening of molecules uncovered nonpeptide, orally available vasopressin antagonists without agonistic properties. The agents show competitive binding to the vasopressin V-2 receptor at an affinity comparable with that of arginine vasopressin. Four antagonists have undergone extensive study. Three of these agents--lixivaptan or VPA 985; SR 121 463 B; tolvaptan or OPC 41,061--are specific V-2 antagonists whereas conivaptan or YM 087 is a V-1/V-2 mixed antagonist. In animal and clinical studies all of the agents were able to correct water retention and hyponatremia in a dose-dependent manner. There was no tachyphylaxis, even when the agents were given over many weeks. It is expected that the clinical use of the agents will lead to a major improvement in the treatment of hyponatremia.
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PMID:Vaptans and the treatment of water-retaining disorders. 1671 96

Hyponatremia is the most frequent electrolyte disorder encountered in hospitalized patients. It is a state of relative water excess due to stimulated arginine vasopressin (AVP) and fluid intake greater than obligatory losses. This kind of hyponatremia occurs in the syndrome of inappropriate antidiuretic hormone secretion, congestive heart failure, and liver cirrhosis. Fluid restriction is the presently recommended treatment for hyponatremia. However, fluid restriction may be very difficult for patients to achieve, is slow to work, and does not allow a graded therapeutic approach. More efficient and specific treatments of hyponatremia are needed. In this respect, pharmacologic research has yielded a number of compounds exhibiting antagonistic qualities at the vasopressin V2 receptor. Among these agents, peptidic derivatives of AVP turned out to have intrinsic antidiuretic properties in vivo when given over days or weeks. The development of such agents for use in patients has not been pursued. However, several promising nonpeptide, vasopressin receptor antagonists have been described; these agents are VPA-985 (lixivaptan), YM-087 (conivaptan), OPC-41061 (tolvaptan), and SR-121463. Prospective, randomized, placebo-controlled trials performed with these agents found that they corrected hyponatremia efficiently and safely. Most of the studies were conducted over a 4- to 28-day period. Long-term studies will be needed in the future to address such issues as the eventual benefit to patients and the effects of vasopressin antagonists on morbidity and mortality of patients with hyponatremia.
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PMID:Vasopressin antagonists as aquaretic agents for the treatment of hyponatremia. 1684 91

The aim of this study was to label selectively and to map central vasopressin (AVP) and oxytocin (OT) binding sites in the common marmoset. [(125)I]VPA, a compound selective in rodents and human for the AVP V(1a) receptor, yielded the same labeling pattern as [(3)H]AVP, thus suggesting that most AVP receptors present in the marmoset brain are of the V(1a) subtype. Numerous areas exhibited AVP binding sites, among which the olfactory bulb, the accumbens nucleus, the bed nucleus of the stria terminalis, the hypothalamic suprachiasmatic, arcuate and ventromedial nuclei, the medial amygdaloid nucleus, the nucleus of the solitary tract and the cerebral cortex. Binding sites for [(125)I]OTA, a selective OT receptor antagonist in rat and human, were markedly less abundant than [(125)I]VPA ones, and, to a few exceptions, expressed in different areas. Neither AVP, nor OT binding sites were detected in the hypothalamic paraventricular (PVN) and supraoptic (SON) nuclei identified by neurophysin immunoreactivity. Marked species-related differences were observed in the distribution of both AVP and OT binding sites. Altogether, our data provide a morphological basis to investigate the function of central AVP and OT in the marmoset.
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PMID:Distribution of vasopressin and oxytocin binding sites in the brain and upper spinal cord of the common marmoset. 1953 96

The Netherlands Pharmacovigilance Centre Lareb received four cases of severe symptomatic hyponatraemia or syndrome of inappropriate antidiuretic hormone secretion (SIADH) in association with valproic acid use, in which a causal relationship was suspected. This study describes these cases and gives support for this association from Vigibase, the adverse drug reaction (ADR) database of the WHO Collaborating Centre for International Drug Monitoring, the Uppsala Monitoring Centre. Cases of hyponatraemia in valproic acid users are described. In a case/non-case analysis, the strength of the association between reported cases of hyponatraemia and the use of valproic acid in Vigibase was established by calculating a reporting odds ratio, adjusted for possible confounding by concomitant medication. Four females aged 57, 67, 71 and 88 years developed symptomatic hyponatraemia or SIADH after starting valproic acid. Despite concomitant medication or co-morbidity, a causal relationship was plausible. In Vigibase, valproic acid is disproportionally associated with hyponatraemia and SIADH (corrected reporting odds ratio 1.83 [95% CI 1.61, 2.08]). Based on the described cases and the reports from Vigibase, a causal relationship between valproic acid use and hyponatraemia or SIADH can be suspected. The mechanism by which valproic acid could cause hyponatraemia or SIADH has not been fully elucidated. Valproic acid use could lead to reduced sensitivity of hypothalamic osmoreceptors. It also might directly affect tubular cell function, thereby leading to SIADH. It might be expected that a combination of effects on the osmoreceptors and a lack of compensation of the salt-water unbalance by the nephrons causes SIADH in some patients using valproic acid. It could be a dose- or concentration-related adverse effect. In this report, severe symptomatic hyponatraemia and SIADH have been associated with the use of valproic acid. With this study, not only is the number of published cases doubled, but also the data from Vigibase strongly support the association. Since hyponatraemia and SIADH have a high morbidity, health professionals should be aware of this potential ADR.
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PMID:Syndrome of inappropriate antidiuretic hormone secretion (SIADH) or hyponatraemia associated with valproic Acid: four case reports from the Netherlands and a case/non-case analysis of vigibase. 2000 Aug 66

Lixivaptan (VPA-985), being developed by Biogen Idec and Cardiokine, under license from Wyeth (now part of Pfizer), is a non-peptide, selective vasopressin V2 receptor antagonist for the potential oral treatment of hyponatremia associated with heart failure. Arginine vasopressin, the native V2 receptor ligand, stimulates water reabsorption via activation of V2 receptors that are expressed in the collecting ducts of the kidney. In preclinical studies, lixivaptan displayed competitive antagonist activity at V2 receptors in vitro, and increased urine volume and decreased urine osmolality in rats and dogs. The therapeutic benefits of lixivaptan are being evaluated in patients with conditions that are associated with water excess and hyponatremia. Phase II clinical trials in patients with congestive heart failure, liver cirrhosis with ascites or syndrome of inappropriate antidiuretic hormone have demonstrated that, unlike traditional diuretics, lixivaptan increases water clearance without affecting renal sodium excretion or activating the neurohormonal system. Administration of lixivaptan in combination with the diuretic furosemide has been tested in rats as well as in trials in healthy volunteers, in which the two agents were well tolerated. Ongoing phase III trials will determine the role of lixivaptan in the management of hyponatremia, especially when associated with heart failure.
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PMID:Lixivaptan, a non-peptide vasopressin V2 receptor antagonist for the potential oral treatment of hyponatremia. 2104 26

Recent findings demonstrate that epigenetic modifications are required for the sexual differentiation of the brain. For example, neonatal administration of the histone deacetylase inhibitor, valproic acid, blocks masculinisation of cell number in the principal nucleus of the bed nucleus of the stria terminalis (BNST). In the present study, we examined the effects of valproic acid on neurochemistry and behaviour, focusing on traits that are sexually dimorphic and linked to the BNST. Newborn mice were treated with saline or valproic acid and the effect on vasopressin immunoreactivity and olfactory preference behaviour was examined in adulthood. As expected, males had more vasopressin immunoreactive fibres than females in the lateral septum and medial dorsal thalamus, which are two projection sites of BNST vasopressin neurones. Neonatal valproic acid increased vasopressin fibre density specifically in females in the lateral septum, thereby reducing the sex difference, and increased vasopressin fibres in both sexes in the medial dorsal thalamus. The effects were not specific to BNST vasopressin projections, however, because valproic acid also significantly increased vasopressin immunoreactivity in the anterior hypothalamic area in both sexes. Subtle sex-specific effects of neonatal valproic acid treatment were observed on olfactory behaviour. As predicted, males showed a preference for investigating female-soiled bedding, whereas females showed a preference for male-soiled bedding. Valproic acid did not significantly alter olfactory preference, per se, although it increased the number of visits females made to female-soiled bedding and the overall time females spent investigating soiled versus clean bedding. Taken together, these results suggest that a transient disruption of histone deacetylation at birth does not have generalised effects on sexual differentiation, although it does produce lasting effects on brain neurochemistry and behaviour.
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PMID:Effects of neonatal treatment with valproic acid on vasopressin immunoreactivity and olfactory behaviour in mice. 2179 47

Valproic acid (VPA) has been used clinically as an anticonvulsant medication during pregnancy; however, it poses a neurodevelopmental risk due to its high teratogenicity. We hypothesized that midgestational (GD) exposure to VPA will lead to lasting deficits in social behavior and the processing of social stimuli. To test this, animals were given a single IP injection of 600 mg/kg of VPA on GD 12.5. Starting on postnatal day 2 (PND2), animals were examined for physical and behavior abnormalities. Functional MRI studies were carried out after PND60. VPA and control animals were given vehicle or a central infusion of a V(1a) antagonist 90 minutes before imaging. During imaging sessions, rats were presented with a juvenile test male followed by a primary visual stimulus (2 Hz pulsed light) to examine the effects of prenatal VPA on neural processing. VPA rats showed greater increases in BOLD signal response to the social stimulus compared to controls in the temporal cortex, thalamus, midbrain and the hypothalamus. Blocking the V(1a) receptor reduced the BOLD response in VPA animals only. Neural responses to the visual stimulus, however, were lower in VPA animals. Blockade with the V(1a) antagonist did not revert this latter effect. Our data suggest that prenatal VPA affects the processing of social stimuli and perhaps social memory, partly through a mechanism that may involve vasopressin V(1a) neurotransmission.
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PMID:Gestational valproate alters BOLD activation in response to complex social and primary sensory stimuli. 2261 73

Autism is a neurodevelopmental disorder characterised by the disruption of social interactions. Autistic animal models play a crucial role in neurophysiologic research on this disorder. One of these models is based on rats that have been prenatally treated with valproic acid - VPA rats. The aim of our study performed with this model was to investigate changes in sociability and gene expression of neuropeptides and receptors involved in regulating social behaviour. We focused on gene expression in the hypothalamus, where the neuropeptides oxytocin (OT) and arginine-vasopressin (AVP) are produced, as well as oxytocin receptors (OTR) in certain neuronal structures involved in the creation of social abilities. Our research showed that VPA rats spent more time in the part with an unknown animal and less time in the central part of a three chamber sociability test apparatus than control animals. The latency period of VPA rats before initiating social contact was decreased. In addition, during weaning, VPA female rats spent more time in direct interaction with an unknown rat. We also found that adult VPA rats had an increased expression of OT in the hypothalamic supraoptic and paraventricular nuclei and of OTR in the medial prefrontal cortex, piriform cortex, cortex-amygdala transition zone and the region of the basolateral and basomedial amygdaloid nuclei compared with controls. To sum up, we observed that a single prenatal injection of VPA increased social behaviour and gene expression of OT and OTR in neurological structures connected with the social behaviour of rats. One unanticipated finding was the absence of one of the core symptoms of autism in VPA rats, suggesting a decreased ability to understand intraspecific communication signals.
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PMID:Increased sociability and gene expression of oxytocin and its receptor in the brains of rats affected prenatally by valproic acid. 2566 21

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