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: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To characterize renal transport of Na+ in heart failure, urinary Na+ excretion (UNaV), aldosterone levels, and Na,K-ATPase activity in isolated nephron segments were determined in three groups: control rats, rats with heart failure and moderate sodium retention, and rats with heart failure and severe sodium retention. Heart failure was induced by a fistula between the aorta and vena cava. For the control group, UNaV was 0.66 +/- 0.04 (mean +/- SEM) mueq/min, and aldosterone was 18.4 +/- 3.5 ng%. Na,K-ATPase activity (in 10(-11) mol/mm/min) was 28.4 +/- 1.1 in the proximal convoluted tubule, 23.3 +/- 1.0 in the proximal straight tubule, 37.4 +/- 1.9 in the medullary thick ascending limb, 40.2 +/- 1.9 in the cortical thick ascending limb, 43.2 +/- 2.2 in the distal convoluted tubule, and 20.5 +/- 0.9 in the cortical collecting duct. For the group with moderate heart failure, UNaV was 0.35 +/- 0.02 (p less than 0.001 versus control), and aldosterone was 15.9 +/- 4.4 (p = NS versus control). Na,K-ATPase activity was unchanged in the proximal convoluted tubule, proximal straight tubule, medullary thick ascending limb, and cortical collecting duct, but it increased in the cortical thick ascending limb to 57.7 +/- 3.1 (p less than 0.001 versus control) and decreased in the distal convoluted tubule to 35.3 +/- 1.2 (p less than 0.005 versus control). For the group with severe heart failure, UNaV was 0.029 +/- 0.016 (p less than 0.001 versus control), and aldosterone was 186.0 +/- 14.8 (p less than 0.001 versus control).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Na,K-ATPase in isolated nephron segments in rats with experimental heart failure. 184 57

The non-osmotic stimulation of release of arginine vasopressin (AVP) seems to be the main determinant of the impaired water excretion and hyponatraemia in patients with cardiac failure. This non-osmotic stimulation of AVP release could be secondary to a decrease in stroke volume to which the ventricular receptors respond by decreasing the vagal afferent input to the hypothalamus via the mid-brain. Improvement of cardiac stroke volume would then decrease AVP release and improve water excretion. In cardiac failure, the non-osmotic stimulation of AVP release is not clearly modulated by the renin-angiotensin system or by the atrial natriuretic peptide plasma concentration. Nevertheless, physiological concentrations of atrial natriuretic peptide could inhibit the renal epithelial water transport at the collecting duct level. Water-loading and osmotic-loading experiments in patients with cardiac failure indicated that the release of AVP is still under osmotic control and favoured the concept that volume depletion in general and cardiac failure in particular may lower the osmotic threshold and increase the osmotic sensitivity to vasopressin release. Experiments using a specific vasopressin antagonist rarely indicated a vasoconstrictor role for endogenous AVP in either experimental or clinical cardiac failure. Intrarenal factors also contributed to the impaired water excretion observed in patients with cardiac failure: increased central sympathetic efferent discharge and stimulation of the renin-angiotensin-aldosterone system would be expected as a consequence of the decreased effective arterial blood volume. These effects could then decrease maximal reabsorption of solute further impairing the ability of the kidney to excrete free water. The impaired water excretion is correlated with the severity of the cardiac deterioration and thus has prognostic implications.
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PMID:Water disturbances in cardiac failure. 253 70

We tested whether severe congestive heart failure (CHF), a condition associated with excess free-water retention, is accompanied by altered regulation of the vasopressin-regulated water channel, aquaporin-2 (AQP2), in the renal collecting duct. CHF was induced by left coronary artery ligation. Compared with sham-operated animals, rats with CHF had severe heart failure with elevated left ventricular end-diastolic pressures (LVEDP): 26.9 +/- 3.4 vs. 4.1 +/- 0.3 mmHg, and reduced plasma sodium concentrations (142.2 +/- 1. 6 vs. 149.1 +/- 1.1 mEq/liter). Quantitative immunoblotting of total kidney membrane fractions revealed a significant increase in AQP2 expression in animals with CHF (267 +/- 53%, n = 12) relative to sham-operated controls (100 +/- 13%, n = 14). In contrast, immunoblotting demonstrated a lack of an increase in expression of AQP1 and AQP3 water channel expression, indicating that the effect on AQP2 was selective. Furthermore, postinfarction animals without LVEDP elevation or plasma Na reduction showed no increase in AQP2 expression (121 +/- 28% of sham levels, n = 6). Immunocytochemistry and immunoelectron microscopy demonstrated very abundant labeling of the apical plasma membrane and relatively little labeling of intracellular vesicles in collecting duct cells from rats with severe CHF, consistent with enhanced trafficking of AQP2 to the apical plasma membrane. The selective increase in AQP2 expression and enhanced plasma membrane targeting provide an explanation for the development of water retention and hyponatremia in severe CHF.
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PMID:Congestive heart failure in rats is associated with increased expression and targeting of aquaporin-2 water channel in collecting duct. 914 58

Central to a unifying hypothesis of body fluid regulation is maintenance of arterial circulatory integrity. This may be disturbed by arterial underfilling, either from reduction in cardiac output or by peripheral arterial vasodilation. In cardiac failure (CF), cardiac output falls and the nonosmotic release of arginine vasopressin (AVP) and expression of AVP mRNA in the hypothalamus are stimulated. V2 AVP receptor antagonists correct the impaired water excretion in rats with low-output CF, increase solute free water clearance, correct the hyponatremia in congestive CF patients, and normalize urinary concentrations of the aquaporin-2 (AQP-2) water channels. In conditions associated with peripheral vasodilation, such as cirrhosis, nonosmotic release of AVP also occurs, and AQP-2 gene expression in the rat kidney is up-regulated. In cirrhosis, nitric oxide-mediated vasodilation occurs early prior to water retention. V2 antagonists reverse the latter. In normal pregnancy, plasma AVP is relatively high for the degree of hypoosmolality. Pregnant rats up-regulate AQP-2 in the renal papilla, an effect reversed by V2 receptor antagonists. This supports the hypothesis that AVP is an important mediator of renal water retention in pregnancy. In summary, AVP-mediated water retention through collecting duct AQP-2 water channels is important in both low-output CF and high-output states such as cirrhosis and pregnancy. V2 receptor antagonists reverse the water retention and down-regulate AQP-2 water channels.
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PMID:Pathophysiology of renal fluid retention. 973 67

Vasopressin (AVP) is released in response to both osmotic and nonosmotic stimuli. Nonosmotic-stimulated AVP release occurs in cardiac failure, cirrhosis, and pregnancy in response to alterations in arterial circulatory integrity. Cardiac failure in rats is associated with increased plasma AVP and hypothalamic AVP mRNA, and in humans, it is associated with cardiac failure. Plasma AVP concentrations are elevated when measured with a sensitive radioimmunoassay. Urinary concentrations of AVP-responsive aquaporin-2 water channels are also elevated in cardiac failure. V2 receptor antagonists correct the impaired solute-free water excretion seen in rats with low-output cardiac failure and reverse the upregulation of renal aquaporin-2 water channels. Orally active non-peptide-selective V2 receptor antagonists administered to patients with congestive cardiac failure decrease urinary concentrations of aquaporin-2, increase solute-free water clearance, and correct the hyponatremia. Cirrhosis of the liver results in splanchnic arterial vasodilation and increased vascular capacity, most likely secondary to increased nitric oxide production. This relative underfilling of the arterial circulation stimulates nonosmotic AVP release with resultant water retention. Aquaporin-2 gene expression is upregulated in the kidneys of rats with cirrhosis of the liver. AVP-2 receptor antagonists administered to animals with cirrhosis reverse the water retention. Human studies using orally active, non-peptide-selective V2 receptor antagonists in patients with cirrhosis are currently underway. Pregnancy is another state of nitric oxide-mediated arterial vasodilation that is associated with plasma AVP concentrations that are relatively high for the degree of hypoosmolality. Upregulation of the water channel aquaporin-2 in the renal papillae of pregnant rats has also been demonstrated, and this effect is reversed by administration of a V2 receptor antagonist.
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PMID:Vasopressin release, water channels, and vasopressin antagonism in cardiac failure, cirrhosis, and pregnancy. 975 91

The recent identification of aquaporin water channel proteins has provided detailed information about the molecular basis for transepithelial water transport. At least five aquaporins have been identified in the kidney; they have provided detailed molecular insight into the fundamental physiology of water balance. This article focuses primarily on the physiology and pathophysiologic significance of the vasopressin-regulated water channel aquaporin-2 (AQP2) in a number of conditions where body water balance is disturbed. AQP2 is regulated by vasopressin by both short- and long-term mechanisms. Acutely, vasopressin induces exocytic insertion of AQP2 into the apical plasma membrane to increase collecting duct water reabsorption. Moreover, long-term regulation of body water balance is achieved by changes in total collecting duct levels of AQP2. Recent studies have documented that both vasopressin and vasopressin-independent regulation play important roles in this. In conditions with acquired nephrogenic diabetes insipidus (eg, lithium treatment, hypokalemia, postobstructive polyuria), AQP2 expression and targeting have been found to be markedly reduced, providing an explanation for the polyuria and the inability to concentrate urine associated with these conditions. Conversely, in conditions with water retention (eg, heart failure, pregnancy), it has been shown that AQP2 levels and plasma membrane targeting are increased. Continued analysis of aquaporins is providing detailed molecular insight into the physiology and pathophysiology of water balance disorders.
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PMID:Pathophysiology of aquaporin-2 in water balance disorders. 982 11

Hyponatremia is common in advanced heart failure and relates to the severity of the disease. Non-osmotic arginine vasopressin (AVP) release and biosynthesis have been shown to be increased during chronic cardiac failure (CHF) and baroreceptors pathways have been demonstrated to play a major role in this non-osmotic stimulation of AVP. Decreased cardiac output unloads the baroreceptors and activates the sympathetic nervous system, thus stimulating AVP through a separate pathway which overrides the osmotic pathway. Besides sympathetic nervous system activation, neurohumoral peptides, such as angiotensin II, endothelins, natriuretic peptides and prostaglandins, could also participate in the non-osmotic AVP activation. The vasoconstrictor effect of AVP has been supported by the decrease systemic vascular resistance during the administration of V1 receptor AVP antagonist in CHF patients. Administration of V2 receptor AVP antagonists corrects the hyponatremia and has been demonstrated to improve survival in animal models of heart failure. Preliminary data in humans with CHF also demonstrate urinary dilution and correction of hyponatremia with orally active non-peptide V2 receptor antagonists. Finally, upregulation of the AVP-regulated water channels, aquaporin-2 (AQP2), located in the collecting duct cells has been shown in experimental heart failure. This AQP2 upregulation can be entirely suppressed by V2 receptor AVP antagonists paralleling the correction of the hyponatremia. Thus, non-osmotic release of AVP in CHF upregulates AQP2 water channels, enhances water reabsorption and causes hyponatremia. The V1, and perhaps the V2, receptor activation may also diminish cardiac function.
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PMID:Recent advances in the understanding of water metabolism in heart failure. 1002 33

Aquaporin-2 (AQP-2), a water channel located on the apical membrane of collecting duct cells, regulates water reabsorption under the control of vasopressin (AVP). Using an antibody directed to human AQP-2, a quantitative Western blot analysis was performed to determine the collecting duct responsiveness to an oral, nonpeptide, V2 receptor antagonist (VPA-985) in patients with chronic NYHA II and III heart failure. Standards were derived by conjugating the immunizing peptide to maleimide-activated bovine serum albumin and a standard curve was generated for each blot. Quantification of baseline steady-state AQP-2 excretion was done by collecting urine on the day before study drug administration. The next day patients received either placebo or VPA-985 at one of four different doses and urine was collected every 2 h. Thereafter, urinary AQP-2 excretion was calculated as a ratio of the urine flow and was expressed in pmol/h. During baseline, steady-state excretion did not change significantly (T0-T2, 458 +/- 44; T2-T4, 443 +/- 35; T4-T6, 422 +/- 35; T6-T8, 401 +/- 30). Compared to placebo, urinary AQP-2 excretion decreased significantly and in all groups in a dose-dependent manner during VPA-985 administration. The most impressive decrease was observed in the 250-mg group (T0-T2, 89 +/- 5; T2-T4, 50 +/- 18; T4-T6, 43 +/- 22; T6-T8, 42 +/- 23; P < 0.001 during each period compared with baseline and placebo results). VPA-985 significantly increased solute-free water clearance and urine output and significantly decreased urinary osmolality. Urinary AQP-2 excretion correlated best with solute-free water clearance during T0-T2 and T2-T4 collection, but a correlation with urinary osmolality and urinary output was also found during these periods. In conclusion, AQP-2 urinary excretion, as measured by quantitative Western analysis, is a sensitive biologic marker to assess the short-term responsiveness of the collecting duct to a V2 receptor AVP antagonist in chronic heart failure.
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PMID:Selective V2-receptor vasopressin antagonism decreases urinary aquaporin-2 excretion in patients with chronic heart failure. 1050 93

Within the past decade an entire family of membrane proteins--aquaporins--which function as transmembrane water channels has been identified; they occur throughout the plant, animal, and bacterial kingdoms. Several family members permit glycerol and urea permeability. Most aquaporins are inhibited by mercury. Constitutively expressed aquaporin 1 is the major permeability channel of the proximal tubule, descending thin limb of the loop of Henle, and it is also found in vasa recta. Aquaporin 2 is expressed in the principal cells of the collecting duct where it shuttles between intracellular vesicles and the apical membrane in response to vasopressin. Aquaporin 2 mutations cause nephrogenic diabetes insipidus; increased aquaporin 2 activity is implicated in the pathophysiology of heart failure, cirrhosis, and nephrotic syndrome. Aquaporins 3 and 4 provide basolateral membrane water channels in the collecting duct. These 4 channels and 6 others are also found elsewhere throughout the body. The physiological importance of several of the channels remains unknown. Aquaporin 1 inhibitors might induce useful diuresis, but humans who lack aquaporin 1 have no significant clinical disease. Inhibition of aquaporin 2 activity by vasopressin receptor antagonists may be useful in heart failure, cirrhosis, nephrotic syndrome, and the syndrome of inappropriate antidiuretic hormone (ADH) release.
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PMID:Aquaporin mediated water flux as a target for diuretic development. 1059 41

The principal goals of treatment of the patient in heart failure are the relief of their symptoms and improvement in their prognosis. Of all antiheart failure drugs currently available, the diuretics are therapeutically superior in their efficacy in relieving clinical symptoms and signs. Whether administered intravenously or orally, all diuretics result in a substantial reduction in the raised pulmonary vascular pressures in combination with a small reduction in cardiac output. Diuretics stimulate release of renin with subsequent activation of the renin-angiotensin-aldosterone system, particularly if used in large doses, although their quantitative impact on the neuroendocrine profile at different stages of heart failure remains to be defined. In patients with mild heart failure, diuretics reduce plasma catecholamine concentrations, but their sympatholytic effects in more severe cases are unknown, as are their effects on the metabolically active tissues in these patients. Diuretic resistance can be circumvented by segmental nephron blockade with a combination of low-dose diuretics that simultaneously block sodium reabsorption in the proximal tubule, the loop of Henle, the distal tubule, and the collecting duct. Diuretics improve symptoms of breathlessness and signs of peripheral edema in patients with congestive heart failure in direct relationship to the induced diuresis. These benefits are frequently associated with a substantial improvement in patients' appreciation of quality of life and economic capacity. There are few adverse reactions to chronic diuretic therapy, but the serum electrolytes should be monitored for hypokalemia and hypomagnesemia. The impact of diuretics on prognosis of patients with congestive heart failure is unknown; however, diuretics have been a major ingredient of the therapies used in all the survival trials with vasodilators, angiotensin-converting enzyme inhibitors, and beta-blocking drugs. In addition to their clinical benefits, diuretics are the most cost-effective treatment of any single drug group currently available for the treatment of patients with congestive heart failure.
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PMID:Diuretic therapy in congestive heart failure. 1117 82


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