Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Several fluid retentive states such as heart failure, cirrhosis of the liver, and syndrome of inappropriate antidiuretic hormone secretion are associated with inappropriate elevation in plasma levels of arginine vasopressin (AVP), a neuropeptide that is secreted by the hypothalamus and plays a critical role in the regulation of serum osmolality and in circulatory homeostasis. The actions of AVP are mediated by three receptor subtypes V1a, V2, and V1b. The V1a receptor regulates vasodilation and cellular hypertrophy while the V2 receptor regulates free water excretion. The V1b receptor regulates adrenocorticotropin hormone release. Conivaptan is a nonpeptide dual V1a/V2 AVP receptor antagonist. It binds with high affinity, competitively, and reversibly to the V1a/V2 receptor subtypes; its antagonistic effect is concentration dependent. It inhibits CYP3A4 liver enzyme and elevates plasma levels of other drugs metabolized by this enzyme. It is approved only for short-term intravenous use. Infusion site reaction is the most common reason for discontinuation of the drug. In animals conivaptan increased urine volume and free water clearance. In heart failure models it improved hemodynamic parameters and free water excretion. Conivaptan has been shown to correct hyponatremia in euvolemic or hypervolemic patients. Its efficacy and safety for short-term use have led to the Food and Drug Administration (FDA) approval of its intravenous form for the correction of hyponatremia in euvolemic and hypervolemic states. Despite its ability to block the action of AVP on V1a receptors, no demonstrable benefit from this action was noted in patients with chronic compensated heart failure and it is not approved for this indication. Consideration should be given to further evaluation of its potential benefits in patients with acute decompensated heart failure.
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PMID:Conivaptan: a dual vasopressin receptor v1a/v2 antagonist [corrected]. 1791 59

As vasopressin receptors are found in many different tissues, vasopressin antagonists may benefit the treatment of numerous disorders. Effects of vasopressin via V1(a) and V2 receptors are closely implicated in a variety of water-retaining diseases and cardiovascular diseases, including heart failure, hyponatremia, hypertension, renal diseases, syndrome of inappropriate antidiuretic hormone secretion, cirrhosis, and ocular hypertension. Furthermore, V1(a) vasopressin antagonists might be useful in cerebral ischemia and stroke, Raynaud's disease, dysmenorrhoea and tocolytic treatment. V1(b) selective vasopressin antagonists are discussed in terms of their usefulness in the treatment of emotional and psychiatric disorders. The vaptans are vasopressin receptor antagonists with V1(a) (relcovaptan) or V2 (tolvaptan, lixivaptan, satavaptan) selectivity or non-selective activity (conivaptan). Conivaptan is the first vaptan which has been approved by the FDA for the treatment of euvolemic hyponatremia. For further indications such as congenital heart failure, studies are going on.
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PMID:[Pharmacology and clinical relevance of vasopressin antagonists]. 1833 84

The treatment of hyponatremia, especially euvolemic and hypervolemic hyponatremia, has changed with the development of drugs which function as vasopressin receptor antagonists. These agents increase solute-free water excretion by the kidney resulting in an aquaresis. Conivaptan, a vasopressin receptor antagonist, has recently been approved by the FDA in the United States for use in the therapy of both euvolemic and hypervolemic hyponatremia. This report summarizes one center's experience with ten patients treated with this new drug. The patients had euvolemic hyponatremia with serum sodium levels less than 128 mEq/l. The same protocol was used in all patients with the conivaptan being given as a 20-mg intravenous loading dose followed by a 20-mg continuous 24-h infusion. Review of the data revealed that six of the ten patients had an excellent response to the therapy, with serum sodium increasing by a mean of 8.5+/-0.8 mEq/l (increases ranged from 7 to 12 mEq/l over 24 h). No significant changes in serum potassium levels or mean arterial pressures were noted. Two of the ten patients experienced a decrease in urine osmolality without a significant increase in serum sodium. Two other patients had only slight decreases in urine osmolality, and no significant increase in serum sodium levels. The data reveal that conivaptan is useful in the management of significant hyponatremia. There were no significant untoward effects, with the exception of one patient whose blood pressure decreased during the conivaptan infusion and who responded to cessation of the infusion and saline replacement therapy. This new class of drugs holds great promise for the treatment of dilutional hyponatremic disorders.
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PMID:Observations regarding the use of the aquaretic agent conivaptan for treatment of hyponatremia. 1836 40

The available treatment options for hyponatremia secondary to SIADH are limited and not completely effective. Conivaptan is a vasopressin 1a and 2 receptor antagonist recently approved by the US Food and Drug Administration (FDA) for treating euvolemic and hypervolemic hyponatremia in adult patients. However, data on efficacy and safety of conivaptan in pediatrics are limited. We report a case of a 13-year-old boy with extensively metastasized anaplastic large-cell lymphoma. He also developed hyponatremia due to syndrome of inappropriate antidiuretic hormone secretion (SIADH) prior to chemotherapy initiation. SIADH management in this case was complicated when fluid restriction was not safely attainable. Conivaptan played a significant role in this situation by allowing provision of a large amount of intravenous fluid prior to and during induction chemotherapy. It proved to be an important component in preventing uric acid nephropathy/tumor lysis syndrome. Conivaptan induced free-water clearance as indicated by increased urine output and decreased urine osmolality. The patient responded to conivaptan without any adverse effects.
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PMID:Use of conivaptan to allow aggressive hydration to prevent tumor lysis syndrome in a pediatric patient with large-cell lymphoma and SIADH. 1843 28

Arginine-vasopressin is a hormone that plays an important part in circulatory and water homoeostasis. The three arginine-vasopressin-receptor subtypes--V1a, V1b, and V2--all belong to the large rhodopsin-like G-protein-coupled receptor family. The vaptans are orally and intravenously active non-peptide vasopressin receptor antagonists that are in development. Relcovaptan is a selective V1a-receptor antagonist, which has shown initial positive results in the treatment of Raynaud's disease, dysmenorrhoea, and tocolysis. SSR-149415 is a selective V1b-receptor antagonist, which could have beneficial effects in the treatment of psychiatric disorders. V2-receptor antagonists--mozavaptan, lixivaptan, satavaptan, and tolvaptan--induce a highly hypotonic diuresis without substantially affecting the excretion of electrolytes (by contrast with the effects of diuretics). These drugs are all effective in the treatment of euvolaemic and hypervolaemic hyponatraemia. Conivaptan is a V1a/V2 non-selective vasopressin-receptor antagonist that has been approved by the US Food and Drug Administration as an intravenous infusion for the inhospital treatment of euvolaemic or hypervolaemic hyponatraemia.
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PMID:Non-peptide arginine-vasopressin antagonists: the vaptans. 1846 46

Conivaptan, a dual vasopressin receptor antagonist, is a member of an emerging class of medications for the treatment of euvolemic hyponatremia. These agents induce a free-water diuresis as compared to the natriuretic effect of loop diuretics and make them an intriguing prospect for the treatment of congestive heart failure. Article also includes recent patents on this topic.
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PMID:Conivaptan: potential therapeutic implications in heart failure. 1853 64

Oxytocin (OT) and vasopressin (AVP) mediate their biological actions by acting on four known receptors: The OT (uterine) and the AVP V(1a) (vasopressor), V(1b) (pituitary), V(2) (renal) receptors and a fifth putative AVP V(1c)? (vasodilating) receptor. This presentation will summarize some highlights of the recent progress, in the design and synthesis of selective peptide agonists, antagonists, radioiodinated ligands, fluorescent ligands and bivalent ligands for these receptors. Here we present published and unpublished pharmacological data on the most widely used agonists, antagonists and labelled ligands. The pharmacological properties of promising new selective OT antagonists and V(1b) agonists are also presented. This review should serve as a useful guide for the selection of the most appropriate ligand for a given study. The current status of non-peptide OT and AVP antagonists and agonists is also summarized. The relative merits of peptide and non-peptide AVP and OT agonists and antagonists as: (1) research tools and (2) therapeutic agents will be evaluated. Many of the receptor selective peptide agonists and antagonists from this and other laboratories are far more widely used as pharmacological tools for studies on the peripheral and central effects of OT and AVP than their non-peptide counterparts. In addition to OT and to a lesser extent AVP (pitressin), a number of OT and AVP analogues; such as carbetocin (OT agonist) dDAVP (desmopressin, V(2) agonist), terlipressin (V(1a) agonist), felypressin (V(1a) agonist) and atosiban (Tractocile OT antagonist) are also in clinical use. Despite much early promise, no non-peptide V(1a) or OT antagonists are currently in clinical trials. While a number of orally active non-peptide V(2) antagonists (Vaptans); notably, Tolvaptan, Lixivaptan and Satavaptan, are currently in Phase III clinical trials; to date, only the mixed V(2)/V(1a), antagonist Conivaptan (Vaprisol), has been approved by the US FDA for clinical use (by i.v. administration), for the treatment of euvolemic and hypervolemic hyponatremia in hospitalized patients. Promising new non-peptide V(1b) and OT antagonists, as well as non-peptide V(2) and OT agonists are now in pre-clinical development.
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PMID:Peptide and non-peptide agonists and antagonists for the vasopressin and oxytocin V1a, V1b, V2 and OT receptors: research tools and potential therapeutic agents. 1865 3

Conivaptan, the first vasopressin receptor antagonist approved by the FDA, is available for the treatment of hyponatremia in euvolemic and hypervolemic patients. The renin-angiotensin-aldosterone system is activated in heart failure (HF) causing clinical worsening. Arginine vasopressin levels are also elevated in HF. Conivaptan is an effective and FDA approved for the treatment of euvolemic and hypervolemic hyponatremia and may offer an extra treatment option in HF by targeting V(1a) and V(2) receptors. In this article we review the physiology, preclinical studies as well as the human clinical studies on the use of conivaptan and its potential and promise in the treatment of HF.
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PMID:Conivaptan: promise of treatment in heart failure. 1966 9

Vasopressin plays a physiological role in regulation of blood pressure, fluid volume, and serum osmolality. In heart failure inadequate release of vasopressin may result in excess fluid retention and hyponatremia. Vasopressin receptor antagonists are a new class of orally active drugs targeted to inhibit one or more of three distinct vasopressin receptors, namely V1a- (-->vasoconstriction), V1b- (-->release of ACTH) und V2-receptors (-->inhibition of free water reabsorption in the kidney). In cardiac decompensation with fluid overload selective V2- (Lixivaptan, satavaptan and tolvaptan) and non-selective V1a/V2-receptor blockers (Conivaptan) have been shown to be superior to standard therapy, as they allow for a faster weight loss and a more rapid symptomatic improvement (i.e. reduction in dyspnea). Inhibiting free water reabsorption without affecting renal sodium excretion vasopressin receptor antagonists allow for a controlled normalisation of serum natrium in euvolemic and hypervolemic hyponatremia. Vasopressin antagonists are well tolerated and have--in contrast to diuretics--no negative influence on renal function and serum potassium. Heart rate and blood pressure are not affected by vasopressin receptor antagonists. However, despite its excellent acute clinical effects long-term treatment with tolvaptan did not result in a reduced mortality and morbidity in heart failure patients over a mean follow-up of 9.9 months in the EVEREST trial.
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PMID:[Vasopressin receptor antagonists and heart failure]. 1988 90

Hyponatremia is the most common electrolyte abnormality in hospitalized patients and is associated with increased morbidity and mortality. The recognition of the central role that arginin vasopressin plays in the pathogenesis of hyponatremia and the discovery that its actions are mediated by stimulation of V(1A) and V(2) receptors have led to the development of a new class of drugs, the arginin vasopressin antagonists. Conivaptan is a nonselective V(1A) and V(2) receptors antagonist that was the first of this class to be approved by the FDA for the management of euvolemic and hypervolemic hyponatremia. Its short-term safety and efficacy for the correction of hyponatremia have been established by multiple double-blind, randomized, controlled studies. Blocking the effects of arginin vasopressin on V(2) receptors produces aquaresis--the electrolyte-sparing excretion of water--an ideal approach to correct hypervolemic hyponatremia. The nonselectivity of conivaptan offers a theoretical advantage for its use in heart failure that may merit further exploration.
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PMID:Conivaptan and its role in the treatment of hyponatremia. 2005 44


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