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)

Experimental myocardial infarction is a model of cardiac overload due to amputation of part of the cardiac muscle. The development of cardiac failure depends on the size of the infarct and the time factor. This model of overload is associated with changes of the phenotype of the remaining healthy muscle and with peripheral vascular modifications partially dependent of the activation of pressor and/or deactivation of dilator systems. These changes are proportional to the size of the infarction at a given time after induction of the model. The degree of right ventricular hypertrophy and the decrease in blood pressure reflect the severity of infarction and the deterioration of the remaining myocardial function, affecting the haemodynamics both before and after the left ventricle. The increases in the 1/3 forms of isomyosins, the amount of subendocardial collagen, the biosynthesis, stocking and secretion of ANF are related to the infarct size and degree of overload. Similarly, the concentration of cyclic GMP is proportional to the infarct size. These parameters reflect ventricular overload, the increase of stress and energy deprivation of the remaining healthy muscle. The activation of peripheral pressor systems is also dependent on the infarct size reflects the effect of cardiac pump dysfunction on the kidney, liver, brain and endothelium. Large infarcts are associated with increased circulating renin and renal concentrations, with a decrease in angiotensinogen levels related to its consumption by the renin and to reduced hepatic synthesis and also with increased secretion and biosynthesis of vasopressin by the hypothalamus. In this model, Perindopril is beneficial by decreasing the cardiac load. It reduces the blood pressure, causes regression of bi-auricular and right ventricular hypertrophy. Changes in myosin isoenzyme configuration regress and subendocardial fibrosis and ANF concentrations are normalised. The effects of ACE inhibitors in this context, though very beneficial, are limited by the impossibility of normalising cardiac load and stress when the initial amputation of cardiac contractile mass exceeds 40%.
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PMID:[Experimental myocardial infarction in the rat. Effect of perindopril]. 166 27

To evaluate the mechanisms of brain natriuretic peptide (BNP) gene expression, we determined the effect of acute cardiac overload (from 30 min to 4 h) on atrial and ventricular BNP mRNA levels in normal and hypertrophied myocardium. Arginine8 vasopressin (AVP; 0.05 microgram/kg.min) and l-phenylephrine (PHE; 20 micrograms/kg.min) were infused iv to increase cardiac workload in conscious spontaneously hypertensive rats (SHR) and Wistar-Kyoto (WKY) rats. At the age of 10-22 months, during the established phase of ventricular hypertrophy, baseline BNP synthesis was increased in the hypertrophic ventricular cells of SHR, as reflected by about 2-fold (P < 0.05-0.001) elevation of levels of immunoreactive BNP (IR-BNP) and BNP mRNA. Intravenous infusions of AVP and PHE increased mean arterial pressure, plasma IR-BNP levels, and ventricular BNP mRNA levels within 1 h of pressure overload; peak levels of BNP mRNA were reached at 4 h. The increase in BNP mRNA levels was slightly greater in the epicardial (2.0- to 2.6-fold; P < 0.01) than in the endocardial layer (1.9- to 2.0-fold; P < 0.01) of the left ventricle. The rapid stimulation of ventricular BNP mRNA synthesis induced by AVP and PHE was accompanied by the simultaneous activation of left atrial BNP gene expression. Left atrial BNP mRNA levels were increased significantly in response to 1-h infusions, and values peaked in both the AVP- and PHE-infused SHR at 2 h, i.e. a 3.6-fold increase in BNP mRNA levels in left atria in AVP-infused SHR, and a 2.5-fold increase in PHE-infused SHR. Right atrial BNP mRNA levels remained unchanged during drug infusion, except for a transient increase in the WKY after 30 min of infusion. The induction of BNP synthesis was also reflected by increased ventricular IR-BNP levels, whereas AVP and PHE did not affect atrial IR-BNP concentrations or contents. In conclusion, the present study shows that pressure overload rapidly stimulates BNP gene expression in the hearts of normal and hypertensive rats. Thus, locally generated BNP in the heart muscle may play a significant role in cardiac adaptation to acute changes in mechanical load.
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PMID:Brain natriuretic peptide in plasma, atria, and ventricles of vasopressin- and phenylephrine-infused conscious rats. 819 76

Experimental myocardial infarction is a model of cardiac overload in which part of the cardiac muscle is removed. The resulting left ventricle insufficiency depends on the size of the infarct and time. The infarcted area remodels, due to proteolytic activity of inflammatory cells and collagenogenesis from fibroblast activity. The phenotype of the residual healthy cardiac muscle undergoes modification, and there are peripheral vascular changes which are partly dependent on the activation of pressor systems and/or inactivation of dilator systems. The changes are proportional to the infarct size at any given time after induction of the model. The degree of right ventricular hypertrophy and the drop in arterial pressure are upstream and downstream markers of the loss of left ventricular function and therefore indicate the extent of the remodelling. The increase of type V3isomyosin, the amount of subendocardial collagen, and the biosynthesis, storage and secretion of atrial natriuretic factor (ANF) are all proportional to the infarct size and the degree of cardiac overload. The level of urinary cGMP is also correlated with infarct size. These indices show ventricular remodelling, increased stress and energy restriction of the residual healthy cardiac muscle. The activation of peripheral pressor systems also depends on infarct size. They reflect the influence of defective cardiac pumping on the kidney, liver, brain and endothelium. Massive infarcts are accompanied by an increase in circulating renin and in renal renin content, by a decrease in angiotensinogen due to its consumption by renin, and to its insufficient hepatic synthesis, and by an increase in vasopressin secretion and biosynthesis in the hypothalamus. Converting enzyme inhibition has beneficial effect in this model by lowering cardiac load. It reduces arterial pressure, reverses bi-atrial and right ventricular hypertrophy, reduces the changes in the myosin isoenzyme patterns, and normalizes subendocardial fibrosis and the level of ANF. Although the effects of converting enzyme inhibition are beneficial in this model, they are restricted by their inability to normalize the load and stress when the initial loss of cardiac contractile material exceeds 40%.
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PMID:Left ventricular remodelling following experimental myocardial infarction. 882 57

To examine the pathophysiological mechanisms in transgenic rats carrying the murine Ren-2d renin gene, we studied atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) gene expression and secretion in 12-week-old hypertensive TGR(mREN-2)27 and normotensive Sprague-Dawley rats. Hypertension and marked left ventricular hypertrophy in TGR(mREN-2)27 rats were associated with high baseline plasma levels of immunoreactive ANP (148 +/- 18 versus 34 +/- 3 pmol/L, hypertensive versus normotensive rats; P < .001), whereas plasma immunoreactive BNP levels did not differ significantly between the strains (19 +/- 4 versus 12 +/- 3 pmol/L, P = .06). ANP mRNA and immunoreactive ANP levels in the left ventricular endocardial and epicardial layers in TGR(mREN-2)27 rats were about 20 to 40 times higher (P < .001) than those in normotensive rats. There were no statistically significant differences between atrial and ventricular BNP mRNA levels, but left ventricular immunoreactive BNP concentrations were twofold higher in hypertensive TGR(mREN-2)27 than in normotensive rats. Infusion of [Arg8]-vasopressin (0.05 microgram/kg per minute IV, for 2 hours) in normotensive rats produced rapid increases (twofold, P < .05 to .01) in left ventricular BNP mRNA and immunoreactive BNP levels, whereas ventricular BNP mRNA and peptide levels did not change significantly in hypertensive rats. The increase in left atrial BNP mRNA levels in response to acute pressure overload was also significantly smaller in the hypertensive than normotensive rats (3.5-fold versus 5.2-fold, P < .01). Furthermore, the proportional but not absolute (in picomoles per liter) increase in plasma immunoreactive ANP was smaller in transgenic rats in response to acute saline and [Arg8]-vasopressin infusions (0.9% NaCl: 1.9-fold increase versus 4.4-fold increase in normotensive rats, P < .001; [Arg8]-vasopressin: 2.2-fold versus 4.8-fold increase, P < .001). These results show that baseline and cardiac overload-induced increases in BNP synthesis are markedly attenuated in transgenic rats carrying the murine Ren-2d renin gene. In addition, acute volume and pressure overload produced a smaller proportional increase in ANP secretion in hypertensive rats than normotensive rats. These alterations in the natriuretic peptide system may contribute to the pathogenesis of hypertension and cardiovascular complications in the TGR(mREN-2)27 rat.
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PMID:Synthesis and secretion of natriuretic peptides in the hypertensive TGR(mREN-2)27 transgenic rat. 895 88

The levels of adrenomedullin (ADM), a newly discovered vasodilating and natriuretic peptide, are elevated in plasma and ventricular myocardium in human congestive heart failure suggesting that cardiac synthesis may contribute to the plasma concentrations of ADM. To examine the time course of induction and mechanisms regulating cardiac ADM gene expression, we determined the effect of acute and short-term cardiac overload on ventricular ADM mRNA and immunoreactive ADM (ir-ADM) levels in conscious rats. Acute pressure overload was produced by infusion of arginine8-vasopressin (AVP, 0.05 microg/kg/min, i.v.) for 2 h into 12-week-old hypertensive TGR(mREN-2)27 rats and normotensive Sprague-Dawley (SD) rats. Hypertension and marked left ventricular hypertrophy were associated with 2.2-times higher ir-ADM levels in the left ventricular epicardial layer (178 +/- 36 vs. 81 +/- 23 fmol/g, P<0.05) and 2.6-times higher ir-ADM levels in the left ventricular endocardial layer (213 +/- 23 vs. 83 +/- 22 fmol/g, P<0.01). The infusion of AVP for 2 h in normotensive rats produced rapid increases in the levels of left ventricular ADM mRNA (epicardial layer: 1.6-fold, P<0.05) and ir-ADM (endocardial layer: from 83 +/- 22 to 140 +/- 12 fmol/g, P<0.05), whereas ventricular ADM mRNA and ir-ADM levels did not change significantly in hypertensive rats. Short-term cardiac overload, induced by administration of angiotensin II (33.3 microg/kg/h, s.c., osmotic minipumps) for two weeks in normotensive SD rats resulted in left ventricular hypertrophy (3.05 +/- 0.17 vs. 2.75 +/- 0.3 mg/g, P<0.05) and a 1.5-fold increase (P<0.05) in ventricular ADM mRNA levels. In conclusion, the present results show that pressure overload acutely stimulated ventricular ADM gene expression in conscious normotensive rats suggesting a potential beneficial role for endogenous ADM production in the heart against cardiac overload. Since pressure overload-induced increase in ADM synthesis was attenuated in hypertensive rats, alterations in the ADM system may contribute to the pathogenesis of hypertension in the TGR(mREN-2)27 rat.
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PMID:Adrenomedullin gene expression in the rat heart is stimulated by acute pressure overload: blunted effect in experimental hypertension. 916 59

Urocortin 1 (Ucn1) may be involved in the pathophysiology of heart failure (HF), but the impact of Ucn1 administration on progression of the disease is unknown. The aim of this study was to investigate the effects of Ucn1 in sheep from the onset of cardiac overload and during the subsequent development of HF. Eight sheep underwent two 4-day periods of HF induction by rapid left ventricular pacing (225 beats/min) in conjunction with continuous infusions of Ucn1 (0.1 microg.kg(-1).h(-1) iv) and a vehicle control (0.9% saline). Compared with control, Ucn1 attenuated the pacing-induced decline in cardiac output (2.43 +/- 0.46 vs. 3.70 +/- 0.89 l/min on day 4, P < 0.01) and increases in left atrial pressure (24.9 +/- 1.0 vs. 11.9 +/- 1.1 mmHg, P < 0.001) and peripheral resistance (38.7 +/- 9.4 vs. 25.2 +/- 6.1 mmHg.l(-1).min, P < 0.001). Ucn1 wholly prevented increases in plasma renin activity (4.02 +/- 1.17 vs. 0.87 +/- 0.1 nmol.l(-1).h(-1), P < 0.001), aldosterone (1,313 +/- 324 vs. 413 +/- 174 pmol/l, P < 0.001), endothelin-1 (3.8 +/- 0.5 vs. 2.0 +/- 0.1 pmol/l, P < 0.001), and vasopressin (10.8 +/- 4.1 vs. 1.8 +/- 0.2 pmol/l, P < 0.05) during pacing alone and blunted the progressive increases in plasma epinephrine (2,132 +/- 697 vs. 1,250 +/- 264 pmol/l, P < 0.05), norepinephrine (3.61 +/- 0.73 vs. 2.07 +/- 0.52 nmol/l, P < 0.05), and atrial (P < 0.05) and brain (P < 0.01) natriuretic peptide levels. Ucn1 administration also maintained urine sodium excretion (0.75 +/- 0.34 vs. 1.59 +/- 0.50 mmol/h on day 4, P < 0.05) and suppressed pacing-induced declines in creatinine clearance (P < 0.05). These findings indicate that Ucn1 treatment from the onset of cardiac overload has the ability to repress the ensuing hemodynamic and renal deterioration and concomitant adverse neurohumoral activation, thereby delaying the development of overt HF. These data strongly support a use for Ucn1 as a therapeutic option early in the course of the disease.
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PMID:Urocortin 1 administration from onset of rapid left ventricular pacing represses progression to overt heart failure. 1752 50

The precise mechanisms regulating gene expression of thrombospondins (TSPs) in the heart remain incompletely understood. Here we characterized cardiac TSP-4 expression in response to pressure overload and myocardial infarction in vivo. Arginine(8)-vasopressin (AVP) infusion increased left ventricular (LV) TSP-4 mRNA levels within 30 min. Also angiotensin II infusion rapidly activated LV TSP-4 expression, TSP-4 mRNA levels being highest at 6h and protein at 72 h and 2 weeks. During remodeling process following myocardial infarction, LV TSP-4 mRNA levels increased at day one, as studied by quantitative RT-PCR. TSP-4 immunostaining was localized to endothelial cells in hypertrophied hearts of spontaneously hypertensive rats. AVP-infusion increased LV TSP-1 mRNA levels similarly to TSP-4 within 30 min showing that rapid induction of gene expression, well before the development of cardiac hypertrophy, is typical for the thrombospondin family. These results further suggest that TSP-4 may be an endothelial specific marker of cardiac overload.
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PMID:Thrombospondin-4 expression is rapidly upregulated by cardiac overload. 1854 Nov 42

Matrix Gla protein (MGP) expression is increased in cardiac hypertrophy, but the precise mechanisms regulating its expression are unknown. Here we characterized the effect of pressure overload and myocardial infarction in vivo as well as mechanical stretch and hypertrophic agonists in vitro on MGP expression. When angiotensin II (Ang II) was administered by osmotic minipumps, left ventricular (LV) MGP mRNA levels increased significantly from 6 h to 2 weeks, whereas intravenous arginine(8)-vasopressin increased LV MGP mRNA levels within 4 h. During post-infarction remodeling process, MGP mRNA levels were elevated at 24 h (1.3-fold, p<0.05) and the maximal increase was observed at 4 weeks (2.8-fold, p<0.01). Ang II increased MGP mRNA levels 20% (p<0.05) in neonatal rat cardiac myocytes and 40% (p<0.05) in cardiac fibroblasts, whereas endothelin-1 decreased MGP mRNA levels 30% (p<0.01) in myocytes and had no effect in fibroblasts. Cyclic mechanical stretch resulted in reduction of MGP gene expression in both cardiac myocytes and fibroblasts. These results demonstrate that MGP is rapidly upregulated in response to cardiac overload well before the development of LV hypertrophy and post-infarction remodeling process. Our results also suggest that Ang II may be involved in mediating load-induced activation of MGP expression.
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PMID:Upregulation of cardiac matrix Gla protein expression in response to hypertrophic stimuli. 1991 1

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