UMLS:C0018801 - FACTA Search

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

Autosomal dominant hypocalcemia (ADH) caused by activating mutations of calcium-sensing receptor (CaSR) is characterized by hypocalcemia with inappropriately low concentration of PTH and relative hypercalciuria. Active vitamin D treatment often leads to nephrolithiasis and renal impairment in patients with ADH. However, differential diagnosis between ADH and idiopathic hypoparathyroidism is sometimes very difficult. Here, we report a mutation of CaSR and its functional property found in three generations of a Japanese family. The proband developed seizures at 7 days of age. His mother and elder sister were discovered to have hypoparathyroidism by family survey, but his father was normocalcemic. His grandfather developed heart failure and was found to have hypoparathyroidism. All affected members had been treated with active vitamin D3 and bilateral nephrolithiasis were detected in three of them. DNA sequencing revealed that all affected patients had a heterozygous mutation in CaSR gene that causes proline to leucine substitution at codon 221 (P221L). In vitro functional analysis of the mutant CaSR by measuring inositol 1,4,5-trisphosphate production in response to changes of extracellular Ca indicated that this mutation is an activating one and responsible for ADH in this family. Therefore, careful monitoring of urinary Ca excretion before and during treatment of PTH-deficient hypoparathyroidism is very important, and screening of CaSR mutation should be considered in patients with relative hypercalciuria or with a family history of hypocalcemia.
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PMID:A family of autosomal dominant hypocalcemia with an activating mutation of calcium-sensing receptor gene. 1273 14

Urotensin II (UII) is a somatostatin-like peptide recently identified as a potent vasoconstrictor. In this study, we examined whether UII promotes cardiac remodeling through nonhemodynamic effects on the myocardium. In a rat model of heart failure after myocardial infarction (MI), increased UII peptide and UII receptor protein expression was observed in both infarct and noninfarct regions of the left ventricle compared with sham. Moreover, post-MI remodeling was associated with a significant 75% increase in UII receptor gene expression in the heart (P<0.05 versus sham controls), with this increase noted in both regions of the left ventricle. In vitro, UII (10-7 mol/L) stimulation of neonatal cardiac fibroblasts increased the level of mRNA transcripts for procollagens alpha1(I), alpha1(III), and fibronectin by 139+/-15% (P<0.01), 59+/-5% (P<0.05), and 141+/-14% (P<0.01), respectively, with a concomitant 23+/-2% increase in collagen peptide synthesis as determined by 3H-proline incorporation (P<0.01). UII had no effect on cellular hypertrophy, as determined by changes in total protein content in isolated neonatal cardiomyocytes. However, expression of recombinant rat UII receptor in neonatal cardiomyocytes resulted in significant UII-dependent activation of hypertrophic signaling as demonstrated by increased total protein content (unstimulated, 122.4+/-4.0 microg/well; rat UII, 147.6+/-7.0 microg/well; P<0.01) and activation of the hypertrophic phenotype through Galpha(q)- and Ras-dependent pathways. These results indicate that, in addition to potent hemodynamic effects, UII may be implicated in myocardial fibrogenesis through increased collagen synthesis by cardiac fibroblasts and may also be an important determinant of pathological cardiac hypertrophy in conditions characterized by UII receptor upregulation.
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PMID:Direct actions of urotensin II on the heart: implications for cardiac fibrosis and hypertrophy. 1284 17

There is abundant evidence now that the endothelium plays a crucial role in the maintenance of vascular tone and structure. One of the major endothelium-derived vasoactive mediators is nitric oxide (NO). Asymmetric dimethylarginine (ADMA) is an endogenous inhibitor of NO synthase. ADMA inhibits vascular NO production at concentrations found in pathophysiological conditions; ADMA also causes local vasoconstriction when it is infused intra-arterially. ADMA is increased in plasma of humans with hypercholesterolemia, atherosclerosis, hypertension, chronic renal failure, and chronic heart failure. Increased ADMA levels are associated with reduced NO synthesis as assessed by impaired endothelium-dependent vasodilation. In several prospective and cross-sectional studies, ADMA evolved as a marker of cardiovascular risk in certain populations like hemodialysis patients, non-smoking men, or intensive-care patients. The CARDIAC study is a multicenter case-control study designed to address the hypothesis that ADMA may be a suitable and sensitive marker of cardiovascular risk in a large, unselected population of both sexes, and with a broad range of established cardiovascular risk factors. The population included in the CARDIAC study will be prospectively followed for a scheduled follow-up period of 4 years, and the data of the CARDIAC-PRO study will then provide definite evidence whether ADMA may be prospectively determined as a cardiovascular risk factor.
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PMID:Plasma concentration of asymmetric dimethylarginine and the risk of coronary heart disease: rationale and design of the multicenter CARDIAC study. 1466

Vasopeptidase inhibitors possess dual inhibitory actions on neutral endopeptidase (NEP) and angiotensin-converting enzyme (ACE) and have beneficial effects on cardiac remodeling. However, the contribution of NEP inhibition to their effects is not yet fully understood. To address the role of cardiac NEP inhibition in the anti-remodeling effects of a vasopeptidase inhibitor, we examined the effects of omapatrilat on the development of cardiac remodeling in rats with left coronary artery ligation (CAL) and those on collagen synthesis in cultured fibroblast cells. In vivo treatment with omapatrilat (30 mg/kg/day for 5 weeks) inhibited cardiac NEP activity in rats with CAL, which was associated with a suppression of both cardiac hypertrophy and collagen deposition. In cultured cardiac fibroblasts, omapatrilat (10(-7) to approximately 10(-5) M) inhibited NEP activity and augmented the ANP-induced decrease in [3H]-proline incorporation. ONO-BB, an active metabolite of the NEP selective inhibitor ONO-9902, also augmented the ANP-induced response, whereas captopril, an ACE inhibitor, did not. The angiotensin I-induced increase in [3H]-proline incorporation was prevented by omapatrilat and captopril, but not by ONO-BB. The results suggest that vasopeptidase inhibitor suppressed cardiac remodeling in the setting of chronic heart failure, possibly acting through the direct inhibition of cardiac NEP. Vasopeptidase inhibitors may have therapeutic advantages over the classical ACE and NEP inhibitors alone with respect to the regression of cardiac fibrosis.
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PMID:Direct inhibition of neutral endopeptidase in vasopeptidase inhibitor-mediated amelioration of cardiac remodeling in rats with chronic heart failure. 1467 6

Inflammation may play an important role in the pathogenesis of cardiac fibrosis in heart failure (HF) after myocardial infarction (MI). N-acetyl-seryl-aspartyl-lysyl-proline (Ac-SDKP) is a naturally occurring antifibrotic peptide whose plasma concentration is increased 4- to 5-fold by angiotensin-converting enzyme inhibitors. We tested the hypothesis that in rats with HF after MI, Ac-SDKP acts as an anti-inflammatory cytokine, preventing and also reversing cardiac fibrosis in the noninfarcted area (reactive fibrosis), and thus affording functional improvement. We found that Ac-SDKP significantly decreased total collagen content in the prevention group from 23.7+/-0.9 to 15.0+/-0.7 microg/mg and in the reversal group from 22.6+/-2.2 to 14.4+/-1.6 (P<0.01). Interstitial collagen volume fraction and perivascular collagen were likewise significantly reduced. We also found that infiltrating macrophages were reduced from 264.7+/-8.1 to 170.2+/-9.2/mm2, P<0.001 (prevention), and from 257.5+/-9.1 to 153.1+/-8.5 mm2, P<0.001 (reversal), while transforming growth factor (TGF)-beta-positive cells were decreased from 195.6+/-8.4 to 129.6+/-5.7/mm2, P<0.01 (prevention), and from 195.6+/-8.4 to 130.7+/-10.8/mm2, P<0.01 (reversal). Ac-SDKP did not alter either blood pressure or left ventricular hypertrophy (LVH); however, it depressed systolic cardiac function in the prevention study while having no significant effect in the reversal group. We concluded that Ac-SDKP has an anti-inflammatory effect in HF that may contribute to its antifibrotic effect; however, this decrease in fibrosis without changes in LVH was not accompanied by an improvement in cardiac function.
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PMID:Ac-SDKP reverses inflammation and fibrosis in rats with heart failure after myocardial infarction. 1469 Nov 95

Common models of chronic heart failure (CHF) do not always result in parameters and symptoms that can be extrapolated to the clinical situation of patients with end-stage heart failure. The aim of this study was to establish and validate a new model of CHF in the rat. CHF was induced in Wistar Kyoto (WKY/NHsd) and spontaneously hypertensive (SHR/NHsd) rats by creating a permanent (8-week) occlusion of the left coronary artery 2 mm distal to the origin from the aorta by a modified technique. This resulted in a large infarction of the free left ventricular wall. The focus of attention was the validation of the geometric properties of the left ventricle and its contractility. The validation of the geometric properties of the left ventricle was done by a non-invasive magnetic resonance imaging (MRI) technique and by planimetry (stereology). Cardiodynamics (e.g. contractility) were evaluated in the isolated 'working heart' model. We were able to establish a new and predictive model of heart failure in the spontaneously hypertensive rat 8 weeks after coronary artery ligation. At this time point, the WKY rat did not show any symptoms of CHF. The model represents characteristic parameters and symptoms that can be extrapolated to the clinical situation of patients with end-stage heart failure (NYHA III-IV). Upon inspection, severe clinical symptoms of congestive heart failure were prominent, such as dyspnoea, subcutaneous oedema, pale-bluish limbs and impaired motion. Non-invasive sequential measurements by NMR techniques showed lung oedema, hydrothorax, large dilated left and right ventricular chambers and hypertrophy of the septum. The infarcted animals showed a reduced heart power, diminished contractility and enhanced heart work, much more so in the SHR/NHsd rat than in the WKY/NHsd rat. Furthermore the infarcted animals showed enhanced levels of hydroxyproline/proline ratios, again much more so in the SHR/NHsd rat than in the WKY/NHsd rat.
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PMID:A model of chronic heart failure in spontaneous hypertensive rats (SHR). 1507 Apr 53

1. Mineralocorticoid receptor (MR) antagonism with spironolactone reduces mortality in heart failure on top of ACE inhibition. To investigate the underlying mechanism, we compared the actions of both aldosterone and spironolactone to those of angiotensin (Ang) II in the rat heart. 2. Hearts of male Wistar rats were perfused according to Langendorff. Ang II and aldosterone increased left ventricular pressure (LVP) by maximally 11+/-4 and 9+/-2%, and decreased coronary flow (CF) by maximally 36+/-7 and 20+/-4%, respectively. Spironolactone did not significantly affect LVP or CF. 3. In hearts that were exposed to a 45-min coronary artery occlusion and 3 h of reperfusion, a 15-min exposure to spironolactone prior to occlusion reduced infarct size (% of risk area) from 68+/-2 to 45+/-3%, similar to the reduction (34+/-2%) observed following 'preconditioning' (15 min occlusion followed by 10 min reperfusion) prior to the 45-min occlusion. Aldosterone exposure did not affect infarct size (71+/-5%). 4. In cardiomyocytes, aldosterone decreased [(3)H]thymidine incorporation maximally by 73+/-3%, whereas in cardiac fibroblasts it decreased [(3)H]proline incorporation by 33+/-7%. Spironolactone inhibited both effects. Ang II increased DNA and collagen synthesis, and these effects were reversed by aldosterone. 5. In conclusion, aldosterone induces positive inotropic and vasoconstrictor effects in a nongenomic manner, and these effects are comparable to those of Ang II. Aldosterone reduces DNA and collagen synthesis via MR activation, and counteracts the Ang II-induced increases in these parameters. MR blockade reduces infarct size and increases LVP recovery following coronary artery occlusion. The MR-related phenomena may underlie, at least in part, the beneficial actions of spironolactone in heart failure.
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PMID:Genomic and nongenomic effects of aldosterone in the rat heart: why is spironolactone cardioprotective? 1583 44

Co-localization of adrenomedullin (AM) and its receptor components such as calcitonin receptor like receptor (CRLR), receptor activity modifying protein (RAMP)2 and RAMP3 in peripheral tissues, including the heart, kidney, and vasculature, suggests an important role for the peptide as a regulator of cardiovascular function. Indeed, we previously reported that AM gene expression and / or immunoreactivity are increased in the ventricles of cardiac hypertrophy and heart failure. Recently, we also found that not only levels of AM peptide and AM gene expression, but also mRNA levels of CRLR, RAMP2 and RAMP3 are increased in cardiac hypertrophy and failing heart. Cardiac myocytes and fibroblast produce and secrete two molecular forms of AM and express CRLR, RAMP2 and RAMP3, and AM is known to have inhibitory effect of collagen synthesis and antiproliferative effect in cardiac fibroblasts. Stimulation by IL-1beta significantly increased gene expression of AM and its receptor components in cardiac fibroblasts. Preincubated IL-1beta elevated the intracellular cAMP response to exogenous administered AM. AM antisense oligodeoxynucleotide treatment significantly lowered AM levels in cultured medium. IL-1beta significantly increased (3)H-proline incorporation and AM antisense oligodeoxynucleotide treatment further increased (3)H-proline incorporation. Collectively, these results support a protective role for increased AM in the cardiac hypertrophy and heart failure. Then, we tested the effects of acute administration of AM in experimental and human heart failure, because AM has hemodynamic effects including vasodilation, increases in cardiac contractility, cardiac output, diuresis, and natriuresis. We observed profound and sustained cardiovascular, hormonal and renal effects. These effects may incorporate many of the therapeutic goals of heart failure management.
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PMID:Cardiac adrenomedullin: its role in cardiac hypertrophy and heart failure. 1597 87

Cardiac failure has a principal underlying aetiology of ischaemic damage arising from vascular insufficiency. Molecules that regulate collateral growth in the ischaemic heart also regulate coronary vasculature formation during embryogenesis. Here we identify thymosin beta4 (Tbeta4) as essential for all aspects of coronary vessel development in mice, and demonstrate that Tbeta4 stimulates significant outgrowth from quiescent adult epicardial explants, restoring pluripotency and triggering differentiation of fibroblasts, smooth muscle cells and endothelial cells. Tbeta4 knockdown in the heart is accompanied by significant reduction in the pro-angiogenic cleavage product N-acetyl-seryl-aspartyl-lysyl-proline (AcSDKP). Although injection of AcSDKP was unable to rescue Tbeta4 mutant hearts, it significantly enhanced endothelial cell differentiation from adult epicardially derived precursor cells. This study identifies Tbeta4 and AcSDKP as potent stimulators of coronary vasculogenesis and angiogenesis, and reveals Tbeta4-induced adult epicardial cells as a viable source of vascular progenitors for continued renewal of regressed vessels at low basal level or sustained neovascularization following cardiac injury.
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PMID:Thymosin beta4 induces adult epicardial progenitor mobilization and neovascularization. 1710 69

Myocardial matrix remodeling is a well-recognized disease modifier in the pathogenesis of heart failure, although the precise underlying molecular mechanisms remain to be elucidated. Here we investigated the effects of leptin, circulating levels of which are typically increased in obese individuals, on MMP and collagen expression and MMP activity in isolated cardiac myofibroblasts. Neonatal rat myofibroblasts were treated with 6 nM recombinant leptin and the collected supernatant analyzed for MMP-2 activity via gelatin zymography. MMP-2, MT1-MMP and procollagen-I and -III protein expression were determined by western blotting and MMP-2 and MT1-MMP mRNA expression were examined utilizing real-time PCR. Procollagen-I levels were analyzed by confocal microscopy and collagen synthesis was determined through [(3)H]-proline incorporation. Exposure of myofibroblasts to leptin (24 h) significantly increased MMP-2 activity, while mRNA and protein levels remained unchanged. Leptin also significantly enhanced mRNA and protein expression of MT1-MMP, a known activator of MMP-2. Biotinylation assays indicated increased cell surface expression of MT1-MMP in response to leptin and use of a MT1-MMP inhibitor attenuated the leptin-mediated elevation of MMP-2 activity. Total cellular collagen synthesis was unaffected by leptin treatment, however intracellular procollagen-I protein was significantly increased in treated cells. Furthermore, extracellular soluble procollagen-I was increased, while a decrease in soluble procollagen-III protein was observed in conditioned media. In summary, these findings in isolated cardiac myofibroblasts support the suggestion that leptin may directly influence myocardial matrix metabolism, and this may represent a mechanism contributing to cardiac fibrosis in obese patients with elevated plasma leptin levels.
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PMID:Increased expression and cell surface localization of MT1-MMP plays a role in stimulation of MMP-2 activity by leptin in neonatal rat cardiac myofibroblasts. 1843 34

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