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)

14 healthy subjects (8 males and 6 females), aged 25-40 years, were studied before and after oral administration of a single dose of 50 mg captopril as well as after 3 d treatment with 100 mg captopril daily per os. We found that in addition to the well-known effects on the renin-angiotensin-aldosterone system, captopril, after 3 d treatment, significantly increases plasma and urinary kallikrein activity, plasma vasopressin and urinary prostaglandin (PG) E2. Atrial natriuretic peptide did not change significantly after either the single dose or the short-term treatment. We conclude that the blood pressure lowering effect of captopril could be mediated by increasing activity of the kallikrein-kinin system and of PGE2 without any participation of atrial natriuretic peptide.
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PMID:Effects of a single dose and short-term captopril treatment on some pressor and depressor humoral factors in healthy subjects. 859 78

Heart failure is a physiopathological condition, with an increasing incidence and prevalence, involving the action of a series of mechanisms known as 'compensators', which are phylogenetically ready to normalize minute volume and blood pressure. These mechanisms include the activation of a series of neurohormonal systems: the sympathetic nervous system, the aldosterone renin-angiotensin system, vasopressin arginine, endothelin, which are basically vasoconstrictors, with the counterpoint of other vasodilator systems, such as the endothelial relaxation factor, certain prostaglandins and the bradykinin-kallikrein system, which modulate global response. The authors review the physiopathology of each of these systems, as well as their significance in the diagnosis and prognostic evaluation of heart failure. We analyze the possible deleterious effects of neurohormonal activation, anatomically and at the cardiovascular function level, and try to determine if they are capable of explaining the evolution and progression of heart failure, in a truly vicious circle, up until the irreversible heart failure phase. We review the current importance of the inhibition of the aldosterone renin-angiotensin system in the prophylaxis and treatment of heart failure. Furthermore, we describe the present-day value of the inhibition of the sympathetic nervous system in some forms of heart failure. We also analyze the different pharmacological treatment for heart failure: diuretics, inotropic agents, vasodilators (in their different pharmacological types), paying particular attention to their action on neurohormonal systems and their implications in the prognosis and evolution of heart failure.
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PMID:[Neurohormonal factors in heart failure. I]. 865 Mar 99

The arcades are long, branched renal tubules which connect deep and mid-cortical nephrons to cortical collecting ducts in the renal cortex. Because they are inaccessible by standard physiological techniques, their functions are poorly understood. In this paper, we demonstrate that the arcades are a site of expression of two proteins, aquaporin-2 (the vasopressin-regulated water channel) and the V2 vasopressin receptor, that are important to regulated water transport in the kidney. Using a peptide-derived polyclonal antibody to aquaporin-2, quantitative ELISA in microdissected segments showed that aquaporin-2 is highly expressed in arcades and that the expression is increased in response to restriction of fluid intake. Immunocytochemistry revealed abundant aquaporin-2 labeling of structures in the cortical labyrinth in a pattern similar to that of the Na(+)-Ca2+ exchanger and kallikrein, marker proteins expressed in arcades but not in cortical collecting ducts. RT-PCR experiments demonstrated substantial aquaporin-2 and V2 receptor mRNA in microdissected arcades. In situ hybridization, using 35S-labeled antisense cRNA probes for the V2 receptor demonstrated strong labeling of both arcades and cortical collecting ducts. Thus, these results indicate that the arcades contain the specific proteins associated with vasopressin-regulated water transport, and may be a heretofore unrecognized site of free water absorption.
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PMID:Rat renal arcade segment expresses vasopressin-regulated water channel and vasopressin V2 receptor. 867 87

Heart failure is a physiopathological condition, with an increasing incidence and prevalence, involving the action of a series of mechanisms known as "compensators", which are phylogenetically ready to normalize minute volume and blood pressure. These mechanisms include the activation of a series of neurohormonal systems: the sympathetic nervous system, the aldosterone renin-angiotensin system, vasopressin arginine, endothelin, which are basically vasoconstrictors, with the counterpoint of other vasodilator systems, such as the endothelial relaxation factor, certain prostaglandins and the bradykinin-kallikrein system, which modulate global response. The authors review the physiopathology of each of these systems, as well as their significance in the diagnosis and prognostic evaluation of heart failure. We analyze the possible deleterious effects of neurohormonal activation, anatomically and at the cardiovascular function level, and try to determine if they are capable of explaining the evolution and progression of heart failure, in a truly vicious circle, up until the irreversible heart failure phase. We review the current importance of the inhibition of the aldosterone renin-angiotensin system in the prophylaxis and treatment of heart failure. Furthermore, we describe the present-day value of the inhibition of the sympathetic nervous system in some forms of heart failure. We also analyze the different pharmacological treatments for heart failure: diuretics, inotropic agents, vasodilators (in their different pharmacological types), paying particular attention to their action on neurohormonal systems and their implications in the prognosis and evolution of heart failure.
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PMID:[Neurohormonal factors in heart failure. II]. 874 85

Heart failure is a physiopathological condition, with an increasing incidence and prevalence, involving the action of a series of mechanisms known as "compensators", which are phylogenetically ready to normalize minute volume and blood pressure. These mechanisms include the activation of a series of neurohormonal systems: the sympathetic nervous system, the aldosterone renin-angiotensin system, vasopressin arginine, endothelin, which are basically vasoconstrictors, with the counterpoint of other vasodilator systems, such as the endothelial relaxation factor, certain prostaglandins and the bradykinin-kallikrein system, which modulate global response. The authors review the physiopathology of each of these system, as well as their significance in the diagnosis and prognostic evaluation of heart failure. We analyze the possible deleterious effects of neurohormonal activation, anatomically and at cardiovascular function level, and try to determine if they are capable of explaining the evolution and progression of heart failure, in a truly vicious circle, up until the irreversible heart failure phase. We review the current importance of the inhibition of the aldosterone renin-angiotensin system in the prophylaxis and treatment of heart failure. Furthermore, we describe the present-day value of the inhibition of the sympathetic nervous system in some forms of heart failure. We also analyze the different pharmacological treatments for heart failure: diuretics, inotropic agents, vasodilators (in their different pharmacological types), paying particular attention to their action on neurohormonal systems and their implications in the prognosis and evolution of heart failure.
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PMID:[Neurohormonal factors in heart failure (and III)]. 875 6

We investigated the effects of bradykinin (BK) and icatibant (HOE 140), a highly selective bradykinin-B2-receptor antagonist, on mean arterial blood pressure (MAP), heart rate (HR), renal blood flow (RBF), and renal vascular resistance (RVR) in conscious Wistar-Kyoto (WKY) rats and spontaneously hypertensive rats (SHRs). Experiments were performed in conscious male WKY rats and SHRs instrumented over the long term with arterial and venous catheters and a transit-time flow probe for measurement of RBF. In WKY rats (n = 16), intraaortic (i.a.) bolus injections of BK (0.1, 1.0, and 10 microg) produced dose-dependent decreases in MAP and RBF with reciprocal increases in RVR. Intrarenal (i.r.) injections of BK (10 microg; n = 6) induced the same hemodynamic response pattern, although the increase in RVR was higher compared with i.a. injections (p < 0.05). Neither vasopressin V1-receptor nor alpha1-adrenoceptor blockade had an effect on the renal vasoconstrictor responses on i.a. BK. The i.a. injections of icatibant (0.1, 1.0, 5.0, and 10 microg; n = 6-10 for each dose) led to a dose-dependent blockade of the hemodynamic responses to BK (10 microg, i.a.). Icatibant (10 microg, i.a) had no effect on resting MAP and HR but induced a biphasic response in RBF and RVR with significant changes compared with basal values (p < 0.05). In SHRs (n = 9), after injection of increasing i.a. doses of BK (0.1, 1.0, and 10 microg), dose-dependent decreases in MAP were proportionately greater compared with those in WKY rats. In contrast to WKY rats, RBF and RVR exhibited a biphasic response pattern on BK in SHRs. Neither vasopressin V1-receptor nor alpha1-adrenoceptor blockade had an effect on the renal vasoconstrictor responses on i.a. BK. The i.a. injections of icatibant (10 microg) almost completely blocked the hemodynamic responses on BK in SHRs (n = 13). Icatibant (10 microg, i.a.) itself induced an increase in resting MAP and HR (p < 0.05) and a biphasic response in RBF and RVR with significant changes of basal values (p < 0.05). Our results provide evidence that BK exhibits renal vasoconstrictor and vasodilator properties in vivo, both mediated by B2-receptors. Furthermore, we demonstrated that SHRs display an increased B2-receptor-mediated vasodilatory responsiveness to BK. Finally we showed that blockade of B2 receptors leads to an increase of MAP in SHRs in contrast to WKY rats, suggesting an important role of the kallikrein/kinin system in the regulation of high blood pressure in SHRs.
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PMID:Effects of bradykinin and icatibant on renal hemodynamics in conscious spontaneously hypertensive and normotensive rats. 933 3

In the last decade, two types of genes participating in the etiology of hypertension have been identified. The primary genes or blood pressure regulators are those that codify enzymes (renin, kallikrein, kininase, aminopeptidase), hormones (angiotensins, vasopressin, aldosterone, prostaglandins, and atrial natriuretic peptide) and substrates (angiotensinogen and kininogen). They cause arteriolar vasodilation or vasoconstriction or sodium retention in the extravascular space. Allelic polymorphisms associated to essential hypertension have been described. The secondary genes are those that produce hereditary diseases of low prevalence, associated to hypertension in 20 to 80% of patients (polycystic kidney disease, pheochromocytoma, adrenal hyperplasia, hereditary nephritis). Forty genes located in all chromosomes, that are dominantly, recessively or X-linked transmitted, have thus far been identified. Chromosomal maps with all genic loci are presented.
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PMID:[The genes of human hypertension]. 946 Feb 75

The localization of oxytocin (OT) binding sites and vasopressin (VP) binding sites of the V1a subtype was investigated by radioautography in kidneys of rabbits, mice and meriones during postnatal development and in the adult, and in the human kidney. Kidney sections were incubated in the presence of selective radioiodinated OT and V1a antagonists, respectively. The localizations were compared with those previously described in the rat. The main finding of the study was the almost constant presence in the cortex of V1a binding sites in the connecting tubule, the cortical collecting duct and in the juxtaglomerular apparatus (on the intra- and extraglomerular mesangium and the afferent arteriole). This distribution suggests an interaction of VP via V1a receptors and the kallikrein-kinin system in the kidney. OT binding sites, in comparison with V1a binding sites, were fewer and less constantly detectable in the kidney of the different species. In the mouse, their presence on the limbs of Henle's loop in the medulla points to the possibility of their involvement in the medullary concentrating process. In the kidneys of the various species, OT and V1a binding sites occurred always in differential structures. In contrast, in the human kidney cortex, a colocalization of OT and V1a binding sites was almost constantly observed. This raises the question as to the specificity of the neurohypophysial hormone receptors in the human kidney.
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PMID:Historadioautographic localization of oxytocin and V1a vasopressin binding sites in the kidney of developing and adult rabbit, mouse and merione and of adult human. 1205 21

In this paper, we review our current understanding of the medicinal chemistry of the major peptide systems, which influence body fluid homeostasis. Electrolytes play pivotal roles in intra- and intercellular communication, acid-base equilibrium and, when bound to several macromolecules, they regulate a myriad of enzymatic proteins, receptors and transcription factors. Cell turgor influences the plasma membrane, which activates mechanically-gated ion channels or mechanoreceptors, and the expression of a number of genes which underlie long-term metabolic responses to hormones, substrates and reactive oxygen intermediates. The altered kinetics and enzymatic cleavage of peptides during water-electrolyte imbalance can contribute to cardiac and renal damage associated with elevated blood pressure. Identification of the enzymes which are responsible for cleavage, together with emerging information about the mechanisms of action and structures of regulatory and effector peptides, has laid a foundation for the discovery of novel drugs, some of which are in use or are now undergoing evaluation in experimental trials. The development of models of hydrosaline challenge with relative efficiency to induce selective water-electrolyte imbalance has permitted the identification of kallikrein-kinin, renin-angiotensin-aldosterone, vasopressin-oxytocin, thyrotropin-releasing hormone and luteinizing hormone-releasing hormone as susceptible substrates. At present, the angiotensin-I converting enzyme inhibitors are well-known efficacious, orally active, blood pressure-lowering agents which have been used in hypertensive patients. In addition to several new analogues of this class of drug, some selective dual inhibitors of angiotensin-I converting enzyme and neutral endopeptidase and inhibitors of aminopeptidases are now also being rationally assayed and their beneficial effects on hypertension and hydromineral balance indicate that this type of drug may have powerful therapeutic effects for disorders of body fluid homeostasis.
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PMID:Peptide metabolism and the control of body fluid homeostasis. 1532 Jul 88

The tissue kallikrein-kinin system is important in regulating cardiovascular and renal function, and dysregulation of the system has been implicated in heart and kidney pathologies. These findings suggest that if balance can be restored to the kallikrein-kinin axis, then associated disease progression may be attenuated. To test this hypothesis, recombinant adeno-associated virus (rAAV)-mediated human tissue kallikrein (HK) expression was induced in a rodent model of chronic renal failure involving 5/6 nephrectomy (nephrectomy plus 70% reduction of remaining kidney). rAAV-HK treatment attenuated the rise in blood pressure, glomerular sclerosis, and tubulointerstitial injury observed in this model. rAAV-HK treatment also attenuated renal function decline as measured by urinary microalbumin, osmolarity, and cGMP levels. Reverse transcriptase-polymerase chain reaction analysis showed that rAAV-HK-treated rats had higher levels of bradykinin receptor-2 (B(2)R) and dopamine receptor-1 mRNAs. In contrast, angiotensin II receptor-1, endothelin receptor-A, and vasopressin receptor-2 mRNAs were markedly downregulated in kidneys from HK-treated rats. Bradykinin induced similar changes in receptor levels and prevented transforming growth factor-beta(1)-induced tubulointerstitial fibrosis. The effects of bradykinin could be reversed with the B(2)R antagonist HOE-140. Together, these findings suggest that restoration of the kallikrein-kinin system reduces kidney injury and protects renal function in 5/6-nephrectomized rats via changes in the expression and activation of G protein-coupled receptors including B(2)R.
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PMID:Delivery of recombinant adeno-associated virus-mediated human tissue kallikrein for therapy of chronic renal failure in rats. 1840 47


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