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)

A highly sensitive radioimmunossay for arginine8-vasopressin (argipressin; INN) measurement was developed using Amberlite XAD 2 resin columns to extract arginine8-vasopressin from acidified human plasma. Arginine8-vasopressin was determined by a rapid radioimmunoassay method (2 x 20 h) using a specific antibody and 125I-labelled antigen. The bound fraction was separated by adsorption of the free fraction onto bovine serum albumin-coated charcoal; this resulted in low unspecific binding of less than 2%. Recovery experiments in the physiological range resulted in a mean (+/- SEM) recovery of 88 +/- 3%. The radioimmunoassay consistently yielded a detection limit of 0.3 ng/l (ED90) and a mean 50% binding intercept (ED50) of 3.5 ng/l. Arginine8-vasopressin immunoreactivity was characterized by reverse-phase high performance liquid chromatography, which confirmed the specificity of the assay. Serial plasma dilution curves paralleled the standard curve. The intra- and inter-assay variations were 9.4% and 15%, respectively. Arginine8-vasopressin concentrations in healthy subjects were determined in normal hydration status (2.2 +/- 0.3 ng/l; n = 11), as well as during suppression by water immersion (1.5 +/- 0.2 ng/l; n = 11) or by water loading (1.6 +/- 0.2 ng/l; n = 8). Thus, this assay allows for a sensitive, accurate and rapid quantification of plasma arginine8-vasopressin concentrations.
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PMID:A highly sensitive and rapid radioimmunoassay for the determination of arginine8-vasopressin. 152 54

Previous studies from our department revealed that congestive heart failure (CHF) is paralleled by a decrease in number of sarcolemmal beta-receptors due to excessive levels of circulating endogenous catecholamines. In contrast, the myocardial H2-receptor system proved to be not affected (Am. Heart J. 101; 569, 1981). The first clinically tested specific H2-receptor agonist impromidine (IMP) turned out to be a potent stimulator in patients with CHF which were insensitive to catecholamine stimulation (Pharmacol. Ther. 24; 165, 1984). Though the overall results of such an H2-receptor stimulation were salutary with favourable hemodynamic effects, the narrow therapeutic range, high costs of synthesis and the arrhythmogenic potential of IMP limited its broad clinical application in large scale trials. - Recently developed phenylpyridylalkylguanidines (J. Med. Chem. 32, 1963, 1989) were investigated under in vitro and in vivo conditions in the guinea-pig under physiologic and pathophysiologic conditions using IMP as reference. - Compounds tested were arpromidine (INN) (BU-E-50) and the difluorinated analogues BU-E-75 and BU-E-76, all guanidine-type H2-agonists with additional H1-antagonistic properties due to a pheniramine like moiety. In the isolated perfused heart all three new compounds were more potent in increasing cardiac contractile force and coronary flow but less effective on heart rate and less arrhythmogenic. The same could be established under in vivo conditions where BU-E-76 was more potent than BU-E-75, arpromidine and IMP, respectively, in augmenting LVdp/dt, LVP, cardiac output and systemic blood pressure, but all compounds revealed to have less chronotropic and arrhythmogenic potentials. In the vasopressin-induced acute heart failure model BU-E-76 and BU-E-75 normalized all contractile parameters in contrast to arpromidine and IMP. Within minutes it is concluded that the new H2-receptor agonists may represent a promising therapeutic improvement for treatment of CHF patients with a cardiovascular profile superior to IMP and conventional catecholamines.
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PMID:Therapeutic value of H2-receptor stimulation in congestive heart failure. Hemodynamic effects of BU-E-76, BU-E-75 and arpromidine (BU-E-50) in comparison to impromidine. 182 32

Cardiodilatin/atrial natriuretic peptide (CDD/ ANP) is a hormone system of great clinical importance. The prohormone CDD/ANP-1-126 is a peptide synthesized in the heart and cleaved during exocytosis into the circulating form CDD/ANP-99-126. Urodilatin (CDD/ ANP-95-126) is a homologue natriuretic peptide that differs from CDD/ANP-99-126 by four amino acids. Whereas CDD/ANP-99-126 circulates in blood plasma and is not excreted into the urine, urodilatin is detected only in urine. Urodilatin exerts its renal effects in a paracrine fashion. After its secretion from cells in the distal tubule, it interacts with luminally located receptors in the collecting duct, resulting in increased diuresis and natriuresis. Results suggest that urodilatin plays an important role in the physiologic regulation of fluid-balance and sodium homeostasis. Pharmacology studies reveal significant differences when urodilatin and CDD/ANP-99-126 are given intravenously, showing that stronger diuresis and natriuresis are induced by urodilatin as compared with those induced by CDD/ANP-99-126. Clinical studies indicate the prophylactic and therapeutic effect of urodilatin in patients suffering from acute renal failure following heart and liver transplantation. A significant reduction in requirements for hemodialysis/hemofiltration can be achieved using urodilatin. Postobstructive diuresis and natriuresis is probably due to a defective urinary concentrating mechanism and is usually resistant to treatment with antidiuretic hormone. The distal tubule and collecting duct have often been considered to be the site of altered sodium and water excretion following relief of obstruction. Since circulating CDD/ANP-99-126 levels are markedly elevated during obstruction and decrease upon relief of the obstruction, natriuretic peptides may play an important role in this clinical feature. On the basis of recent findings attributing an important role in sodium homeostasis to urodilatin in contrast to CDD/ANP-99-126, future studies have to clarify whether urodilatin, not CDD/ANP-99-126, might be responsible for the altered renal sodium excretion observed in postobstructive diuresis. In the past decade a considerable amount of research has led to the identification and characterization of hormones of the natriuretic peptide family [13]. These peptides are involved in the regulation of salt and water homeostasis. The prototype of the natriuretic hormones is cardiodilatin/atrial natriuretic peptide (CDD/ANP), or A-type natriuretic peptide. CDD/ANP is primarily produced in the heart [6]. It is synthesized as a precursor molecule, CDD/ ANP-1-126, in specific granules in atrial myoendocrine cells [15]. The prohormone, upon appropriate stimuli for release, is cleaved into the C-terminus CDD/ANP-99-126 and excreted into the circulation via exocytosis [16]. Further members of the natriuretic peptide family are brain natriuretic peptide (BNP, or B-type natriuretic peptide) [45] and C-type natriuretic peptide (CNP) [46]. All the members of this family share many common features, including tissue distribution of gene expression, biosynthetic pathways, and pharmacologic effects in target organs [13,26]. The main biologic effects of these hormones are natriuresis, diuresis, and vasodilation [5, 6, 14, 22], but these vary among the individual peptides. Natriuretic effects such as increased glomerular filtration, inhibition of aldosterone production, and secretion result from direct inhibition of sodium absorption in the collecting duct. Urodilatin (INN: Ularitide) is a member of the natriuretic peptide family, discovered in 1988 by Schulz-Knappe et al. [43]. This hormone is presumably synthesized in the kidney and exerts potential paracrine renal effects [17]. Results of clinical phase I-II trials suggest a potent therapeutic effect of urodilatin in the treatment of acute renal failure in patients following organ transplantation [4, 27, 33].
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PMID:The renal paracrine peptide system--possible urologic implications of urodilatin. 898 39