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:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hyponatremia complicates ascitic hepatic cirrhosis with frequency and gravity related to the gravity of the cirrhosis itself. When hyponatremia develops, it worsens the already present secondary hyperaldosteronism and makes therapy with spironolactone inefficacious. From a pathophysiologic viewpoint a pathogenetic role in determining hyponatremia is attributable to the reduced plasmatic renal perfusion; in several patients a syndrome of inappropriate ADH secretion develops. Other neurohormonal systems (catecholamines, prostaglandins, natriuretic hormones) are probably very important in modifying renal hemodynamics and renal tubular function. In some patients a causative role for hyponatremia is attributable to iatrogenic factors (e.g.: diuretics). From a therapeutic viewpoint, we examine some schedules, pharmacologic or not, that, however, are far from being useful for all patients. We discuss, mainly, water restriction, osmotic diuretics with or without loop diuretics, loop diuretics followed by sodium reintegration and concentration-reinfusion of ascites or application of peritoneovenous shunt.
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PMID:[Hyponatremia in cirrhosis with ascites]. 223 78

1. Evidence from numerous experiments incorporating central blood volume expansion and changes in sodium status supports atrial stretch as the prime determinant of ANF release. 2. Plasma ANF levels are the result of both secretion and clearance of the peptide. Clearance is altered by a number of factors, including changes in posture in normal man and is probably impaired in disease states with diminished renal and hepatic blood flow. 3. In normal subjects an inverse relationship exists between plasma ANF values and renin-angiotensin-aldosterone system activity. This relationship is lost and replaced by a positive association in heart failure, presumably reflecting the abnormal concurrence of increased atrial stretch and diminished renal perfusion in this condition. Plasma ANF values rise with increasing severity of heart failure and fall with effective treatment. 4. Plasma ANF values are elevated in hypertension and cardiac tachyarrhythmias possibly reflecting raised central venous and atrial pressures. 5. A variety of other disorders may be associated with abnormal plasma ANF values including cirrhosis and the syndrome of inappropriate ADH secretion. 6. Evidence from low-dose infusions of ANF in normal volunteers suggests that the variations in plasma ANF seen in health and disease are sufficient to exert biological effects. 7. The advent of a specific antagonist is needed to provide further insight into the physiological and pathophysiological roles of ANF.
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PMID:Atrial natriuretic factor in human pathophysiology. 297 38

We analyzed the serum anion gap (AG = sodium plus potassium minus chloride plus bicarbonate, N = 11-21 mEq/l), serum uric acid and urea concentrations in hyponatremia of various origins. We found that characteristic chemical patterns emerged in association with different hypotonic states: Low uric acid concentration was typically observed in the SIADH and in hyponatremia related to hypopituitarism. The same observation was also frequently noted in hyponatremia secondary to diuretics or to polydypsia. In the SIADH, we observed a decrease in the AG but to a greater extent (-26%) than one would expect from the simple dilutional effect (-16%). Fifty percent of the patients presented an AG lower than 11 mEq/l. In patients with diuretic-related hyponatremia, one group presented an hypouricemia and a low AG as in SIADH (reflecting volume expansion), in the other group the AG was normal or increased as was uric acid concentration (reflecting volume depletion). In adrenocorticotropin deficiency, hyponatremia was typically associated with a low bicarbonate concentration, a normal AG and hypouricemia. In polydypsic patients with hyponatremia, the AG was usually normal or increased despite sometimes very low sodium levels. Uric acid levels were highly variable, most often decreased. We also noted in these patients that the serum urea levels were correlated with urine osmolality (R = +0.8; p < 0.001), and in 40% of them we observed very low blood urea concentration (0.5-2 mmol/l) at the admission time. In hyponatremia related to cardiac failure or cirrhosis, the AG was usually normal despite mild hypoproteinemia.
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PMID:Uric acid, anion gap and urea concentration in the diagnostic approach to hyponatremia. 852 2

After the story of success of hormone blockers for catecholamines, aldosterone and angiotensin II and their successful implementation into clinical practice another endocrine cardiovascular system has come into focus. It has long been known, that the hormone vasopressin plays an important role in peripheral vasoconstriction, hypertension and in several disease conditions with dilutional hyponatremia in edematous disorders, like congestive heart failure, liver cirrhosis, SIADH and nephrotic syndrome. A series of orally active nonpeptide antagonists against the vasopressin receptor subtypes has recently been synthesized and is now under intensive examination. Nonpeptide V1a-receptor specific antagonists, OPC 21268 and SR 49059, nonpeptide V2-receptor specific antagonists, SR 121463 A and VPA 985, and combined V1a-/V2-receptor antagonists, OPC 31260 and YM 087, have become available for clinical research. AVP-V2-receptor antagonists lead to a dose-dependent diabetes insipidus in animals and man. The term aquaretic drugs (aquaretics) has been coined for these drugs to highlight their different mechanism compared to the saluretic diuretic furosemide. V1a-receptor antagonists might offer new therapeutic advantages in the treatment of vasoconstriction and hypertension. Combined V1a-/V2-receptor antagonists might be beneficial in the treatment of congestive heart failure. Early results are promising and now need to be confirmed in large clinical studies.
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PMID:Nonpeptide vasopressin antagonists: a new group of hormone blockers entering the scene. 1037 39

Aquaporins are transmembrane proteins mediating water transport across plasma membrane of animal, vegetal or bacterial cells. Among the ten aquaporins known in mammals, six are located in kidney and take part in urine concentration. AQP2 is vasopressin regulated, it is the only family member to be implicated in human pathology, such as nephrogenic diabetes insipidus, congestive heart failure, hepatic cirrhosis, nephrotic syndrome or SIADH. Aquaporins are expressed in a wide variety of tissues, such as brain or gastrointestinal tractus, and suggest a role in water tissue exchange, but their real function is still not define. To know the physiological impact of aquaporins, AQP1, AQP3, AQP4 and AQP5 knockout mice have been created and their phenotype analysed.
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PMID:[New players in the physiopathology of water metabolism: the aquaporins]. 1066 46

Disorders of the serum sodium concentration (hypo- and hypernatremia) are amongst the most frequent electrolyte disorders in clinical medicine. They are attributable to disturbance of to water metabolism. Hyponatremia is almost always a condition of water excess while hypernatremia is due water deficiency. Physiological normonatremia (normal plasma osmolality) is maintained by an integrated system involving regulated water intake via thirst and control of water excretion via antidiuretic hormone secretion. Therefore hypo- and hypernatremia should be analyzed in terms of dysregulated ADH secretion, fluid intake and renal water excretion. Hyponatremia is usually a disorder of vasopressin excess, due to 'non-osmotic' vasopressin release. The latter may occur in two different settings: (I) SIADH, (II) baroreceptor mediated vasopressin secretion (cardiac failure, liver cirrhosis). This entities are easy to distinguish in clinical practice. SIADH is associated with striking lower plasma concentrations of urate, creatinine and urea. In SIADH the blood pressure is normal and there is no edema. In contrast in the hyponatremia of liver cirrhosis and heart failure the plasma measurements indicated are usually slightly elevated, the blood pressure is low and there is edema. The typical patient with hypernatremia is old and has no thirst sensation. Hypo- or hypernatremia may cause major neurologic symptoms. These symptoms are more related to the rate of change in the serum sodium concentration than to the absolute level of a hypo- or hypernatremia reached. The traditional treatment for hyponatremia used to be water restriction. However V2-Vasopressin-Antagonists may provide a better treatment modality in the future. Hypernatremia is treated by slow rehydratation.
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PMID:[Hyponatremia--with comments on hypernatremia]. 1089 27

Vasopressin (AVP) is a cyclic nonapeptide hormone that exhibits many physiological effects including free water reabsorption, vasoconstriction, cellular proliferation and adrenocorticotrophic hormone (ACTH) secretion. In a healthy organism, AVP plays an important role in the homeostasis of fluid osmolality and volume status. However, in several diseases or conditions such as the syndrome of inappropriate secretion of AVP (SIADH), congestive heart failure, arterial hypertension, liver cirrhosis, nephrotic syndrome, dysmenorrhoea and ocular hypertension, AVP may play an important role in their pathophysiology. Recently, orally-active non-peptide AVP receptor antagonists were developed by random screening of chemical entities and optimisation of lead compounds. These include agents specific for the V(1)-vascular and V(2)-renal AVP receptor subtypes. Dual V(1)/V(2) AVP receptor antagonists are also being studied. Some of these non-peptide receptor antagonists have been studied extensively, while others are currently under investigation. Potential therapeutic indications for AVP receptor antagonists comprise: 1) The blockade of V(1)-vascular AVP receptors in arterial hypertension, congestive heart failure, Raynaud's syndrome, peripheral vascular disease and dysmenorrhea. 2) The blockade of V(2)-renal AVP receptors in the syndrome of inappropriate secretion of vasopressin, congestive hart failure, liver cirrhosis, nephrotic syndrome and any state of excessive retention of free water and subsequent dilutional hyponatraemia. 3) The blockade of V(3)-pituitary AVP receptors in ACTH-secreting tumours. This review examines the pharmacology of orally-active non-peptide AVP receptor antagonists and their clinical applications.
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PMID:Development and therapeutic indications of orally-active non-peptide vasopressin receptor antagonists. 1132 60

Vasopressin, like all the other neuro-hormonal systems, is activated in patients with cardiac insufficiency. Vasopressin attaches itself to two distinct specific receptors. It is through the intermediary of the renal V2 receptor, controlling the reabsorption of water by the collecting duct, that vasopressin finely regulates the blood osmolarity. The ubiquitous V1a receptor is essentially responsible for the vasoconstrictor effect of the hormone. Some specific antagonists for these two receptors have now been evaluated in various pathologies such as SIADH, cirrhosis or cardiac insufficiency. In this situation the mixed antagonists, anti-V1a-V2, seem more appropriate than the specific V1a or V2 receptor antagonists. The results of the first human studies are encouraging. The mixed antagonists reduce the pulmonary capillary pressure and increase diuresis and clearance of free water. But further studies are necessary to confirm these results and to demonstrate a reduction in morbidity and mortality before adding this class of medication to the therapeutic arsenal for our patients with cardiac insufficiency.
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PMID:[Vasopressin antagonists]. 1193 60

AVP receptors represent a logical target for drug development. As a new class of therapeutic agents, orally active AVP analogs could be used to treat several human pathophysiological conditions including neurogenic diabetes insipidus, the syndrome of inappropriate secretion of AVP (SIADH), congestive heart failure, arterial hypertension, liver cirrhosis, nephrotic syndrome, dysmenorrhea, and ocular hypertension. By immunoprecipitation and immunoblotting, we elucidated the phosphorylation pattern of green fluorescent protein-tagged AVP receptors and showed interactions with the specific kinases PKC and GRK5 that are agonist-, time- and receptor subtype-dependent. The tyrosine residue of the NPWIY motif present in the 7th helix of AVP receptors is rapidly and transiently phosphorylated after agonist stimulation. This phosphorylation is instrumental in the genesis of the mitogenic cascade linked to the activation of this receptor, presumably by establishing key intramolecular contacts and by participating in the creation of a scaffold of proteins that produce the activation of downstream kinases. The random screening of chemical entities and optimization of lead compounds recently resulted in the development of orally active non-peptide AVP receptor agonists and antagonists. Furthermore, the identification of the molecular determinants of receptor-ligand interactions should facilitate the development of more potent and very selective orally active compounds via the approach of structure-based drug design. We developed three-dimensional molecular docking models of peptide and non-peptide ligands to the human V1 vascular, V2 renal and V3 pituitary AVP receptors. Docking of the peptide hormone AVP to the receptor ligand binding pockets reflects its dual polar and non-polar structure, but is receptor subtype-specific. The characteristics of non-peptide AVP analogs docking to the receptors are clearly distinct from those of peptide analogs docking. Molecular modeling of the results of site-directed mutagenesis experiments performed in CHO cells stably transfected with the human AVP receptor subtypes revealed that non-peptide antagonists establish key contacts with a few amino acid residues of the receptor subtypes that are different from those involved in agonist binding. Moreover, these interactions are species-specific. These findings provide further understanding of the signal transduction pathways of AVP receptors and new leads for elucidation of drug-receptor interactions and optimization of drug design. NOTE TO THE READER: The recent cloning and molecular characterization of AVP/OT receptor subtypes call for the revision of their nomenclature. For the sake of clarity and reference to their main site of expression, we call the V1a receptor the V1 vascular receptor, the V2 receptor the V2 renal receptor and the V1b or V3 receptor the V3 pituitary receptor in the present review.
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PMID:Molecular pharmacology and modeling of vasopressin receptors. 1243 35

BACKGROUND: Hyponatremia is a common electrolyte disorder in hospitalised patients. The distribution of the various causes of hyponatremia has been studied in hospitalised patients in general, but little is known about the distribution in specific departments. We performed a prevalence study on the aetiology of hyponatremia in two departments in our hospital, namely, the Department of Internal Medicine and the Department of Neurosurgery. METHODS: Consecutive adult patients with hyponatremia (serum sodium concentration</=130 mmol/l) who had been admitted to the Departments of Internal Medicine and Neurosurgery were included in the study. The cause of hyponatremia was determined on the basis of information obtained from medical records, estimation of extracellular fluid volume status, water balance and biochemical parameters in blood serum and urine. RESULTS: Out of 41 hyponatremic patients, 12 had hyponatremia due to normovolemic disorders, 10 due to hypervolemic disorders, 11 due to hypovolemic disorders with extrarenal sodium loss and eight due to hypovolemic disorders with renal sodium loss. The most frequent causes of hyponatremia were extrarenal sodium loss due to vomiting or diarrhoea, hepatic cirrhosis, drug-induced hyponatremia and the syndrome of inappropriate ADH secretion. CONCLUSIONS: In the Departments of Internal Medicine and Neurosurgery, certain causes of hyponatremia are more prevalent than others. The use of clinical data, in combination with a few simple laboratory tests, can lead to a correct diagnosis of the principal cause of hyponatremia.
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PMID:Causes of hyponatremia in the Departments of Internal Medicine and Neurosurgery. 1367 55


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