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)

Sequential necropsies and histologic evaluations of young adult beagle dogs were performed after irradiation of the thorax. Total doses to the heart were 36, 44, or 52 Gy given in 4-Gy fractions in 4 weeks. One month after irradiation there was little histologic evidence of damage visible by light microscopy. However, ventricular and septal weights were increased, probably due to edema. At 3 months damage to endothelial and mesothelial cells was evident. By 12 months the myocardium was thinned and focal degeneration and loss of muscle cells and Purkinje fibers were observed. There was extensive subendocardial and epicardial fibrosis as well as intimal proliferation in coronary arteries. Morphometric analyses were performed on the myocardium, pericardium, atria, and aorta. There was a slight increase in perivascular connective tissue in the myocardium. The pericardium was increased in thickness and the ratio of smooth muscle to elastin was decreased in the aorta. Severe fibrosis occurred only in the right atrium. At 1 year there was no clinical evidence of heart failure; however, evidence of myocardial damage was present histologically and functionally. Additional stress and continued aging are likely to enhance the damage and lead to serious complications. The interactions of irradiated lung and heart require further investigation.
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PMID:Radiation-induced cardiomyopathy in the dog. 334 Jul 16

Systemic vasoconstriction due to stimulation of the sympathetic and renin-angiotensin-aldosterone systems is a hallmark of heart failure and this is accompanied by impaired endothelium-dependent relaxations at the level of large arteries. This study investigated, in a rat model of heart failure, whether such an endothelial dysfunction also exists at the level of the resistance artery, and whether this is associated with morphologic changes, as well as the effects of chronic treatment with the angiotensin-converting enzyme inhibitor perindopril (2 mg/kg/day). After 12 months, arterial pressure, left ventricular (LV) end diastolic pressure (LVEDP), and LV dP/dt were measured in anesthetized rats. Responses to acetylcholine and nitroprusside were determined in isolated and perfused mesenteric artery segments (diameter: 280 +/- 15 microns). After fixation, vessel diameter, media cross-sectional area, and media collagen and elastin densities were measured by image analysis. After 12 months, untreated rats showed signs of heart failure, i.e., reduced LV dP/dt, and increased LVEDP, heart weight/body weight, LV cavity circumference, and myocardial collagen density. In mesenteric vessels the endothelium-dependent vasodilator response to acetylcholine was impaired, whereas the response to the nitric oxide donor nitroprusside was unaffected. Heart failure did not affect vascular morphological parameters. Perindopril decreased blood pressure and LVEDP without any modification of LV dP/dt, and prevented cardiac remodeling. At the vascular level, perindopril improved the response to acetylcholine and reduced media cross-sectional area and collagen density without affecting internal vessel diameter or elastin density. Thus, heart failure decreases endothelium-dependent vasodilator response to acetylcholine without modification of vessel structure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular and myocardial protective effects of converting enzyme inhibition in experimental heart failure. 748 84

Structural changes of the peripheral vascular component as seen during hypertension and atherosclerosis have been suggested during heart failure but have never been reported. Therefore, we studied possible structural alterations in the peripheral vasculature in an experimental model of heart failure, induced by ligation of the left coronary artery in rats. Large conduit and resistance-type arteries were excised at 1, 3, 5, and 12 weeks after myocardial infarct induction (MI) or sham surgery. Vessel dimensions (medial cross-sectional area [CSA], internal and external diameters, and media-to-lumen ratios) as well as medial collagen and elastin volume fractions were measured by computerized morphometry. The hydroxyproline assay was used to determine collagen and elastin content biochemically. In separate groups of animals, peripheral tissue flows were measured by using radioactive microspheres 5 and 12 weeks after MI. To evaluate the effects of the degree of heart failure, the animals of the 12-week group (n = 10) were subdivided into groups of moderate (< 45% infarct size) and large (> 45% infarct size) infarction. At all time points, body weights of sham-operated and MI rats were comparable. Lung weights of infarcted animals were increased proportionally to infarct size. No major changes in vessel dimensions were seen at the earlier time points. Twelve weeks after coronary artery ligation, significantly smaller CSAs were observed in several large conduit arteries such as the thoracic aorta, carotid artery, and superior mesenteric artery. These changes coincided with reductions in both internal and external diameters. In contrast, internal and external diameters of mesenteric and pulmonary resistance arteries were increased after 12 weeks of coronary artery ligation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Peripheral vascular alterations during experimental heart failure in the rat. Do they exist? 767 Sep 66

Supravalvular aortic stenosis (SVAS) is an inherited vascular disease that can cause heart failure and death. SVAS can be inherited as an autosomal dominant trait or as part of a developmental disorder, Williams syndrome (WS). In recent studies we presented evidence suggesting that a translocation disrupting the elastin gene caused SVAS in one family while deletions involving the entire elastin locus caused WS. In this study, pulsed-field, PCR, and Southern analyses showed that a 100-kb deletion of the 3' end of the elastin gene cosegregated with the disease in another SVAS family. DNA sequence analysis localized the breakpoint between elastin exons 27 and 28, the same region disrupted by the SVAS-associated translocation. These data indicate that mutations in the elastin gene cause SVAS and suggest that elastin exons 28-36 may encode critical domains for vascular development.
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PMID:Supravalvular aortic stenosis associated with a deletion disrupting the elastin gene. 813 45

The histopathology, ultrastructure, and clinicopathologic correlations in six patients with cardiac failure and iron encrustation of lung elastic tissue were examined at autopsy. Transmission electron microscopy (TEM) and energy dispersive x-ray analysis were applied to two cases. Of the group, five patients had cardiac failure due to systemic hypertension (4 patients), valvular disease (4 patients), or coronary atherosclerosis (4 patients). Biventricular failure in one patient was associated with sleep apnea. Both iron and calcium, identified by histochemical stains, impregnated degenerated alveolar and vascular elastic fibers and were associated with a foreign body reaction and focal interstitial fibrosis. Energy dispersive x-ray analysis and TEM demonstrated iron and calcium on the microfibrillar portion of elastin. Morphometry indicated vascular changes of pulmonary venous hypertension. The authors concluded that mineral deposition probably represents nonspecific precipitation of metallic ions on altered elastic fibers in patients with cardiac failure. "Mineralizing elastosis" potentially contributes to lung restriction and, occasionally, can be a source of diagnostic confusion.
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PMID:Mineralizing pulmonary elastosis in chronic cardiac failure. "Endogenous pneumoconiosis" revisited. 827 51

Extracellular matrix (ECM) in the heart and vascular wall includes fibrous proteins and proteoglycans. Fibrous proteins are classified within two categories: structural (collagen and elastin) and adhesive molecules (laminin and fibronectin). These ECM components are important in maintenance of both structure and function of the heart and vascular tissues. Myocardial infarction, hypertrophy, hypertension and heart failure are well known to be associated with progressive cardiac fibrosis. Vascular hypertrophy and thickening has been associated with the pathological series of events that attends both hypertension and restenosis. The accumulation of ECM in the cardiovascular system plays an important role in the development of heart failure after myocardial infarction and hypertension, as well as in vascular hypertrophy and restenosis. Angiotensin II (angiotensin) and transforming growth factor beta 1 are known to play a role in signalling the abnormal accumulation of ECM in these cardiovascular diseases. Administration of angiotensin-converting enzyme inhibitor or angiotensin receptor type 1 antagonist is associated with regression of cardiac hypertrophy and fibrosis as well as vascular hypertrophy.
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PMID:Extracellular matrix and cardiovascular diseases. 898 66

Previous studies demonstrated that transition from compensatory pressure overload hypertrophy to decompensatory volume overload heart failure is associated with decreased cardiac tensile strength and activation of matrix metalloproteinase (MMP) in spontaneously hypertensive rat (SHR). To test the hypothesis that in the absence of nitric oxide activation of MMP during cardiac failure causes disruption in the organization of extracellular matrix (ECM) and leads to decrease systolic and diastolic cardiac tensile strength, we employed SHR of 24--32 weeks, which demonstrates significant cardiac hypertrophy and fibrosis. The normotensive Wistar rats (NWR) were used as control. To determine whether cardiac hypertrophy is associated with increased elastinolytic matrix metalloproteinase-2 (MMP-2) activity; quantitative elastin-zymography was performed on cardiac tissue homogenates. The MMP-2 activity was normalized by the levels of actin. The MMP-2/actin ratio was 2.0+/-0.5 in left ventricle (LV) and 1.5+/-0.25 in right ventricle (RV) of SHR(32wks); and 0.5+/-0.25 in LV and 0.25+/-0.12 in RV of NWR(32wks) (P<0.02 when SHR compared with NWR). To measure passive diastolic cardiac function, rings from LV as well as RV through transmyocardial wall from male SHR and NWR of 6--8 weeks and 24--36 weeks were prepared. The LV wall thickness from endocardium to epicardium was 3.75+/-0.25 mm in SHR(32wks) as compared to 2.25+/-0.50 mm in NWR(32wks) (P<0.01). The ring was placed in tissue myobath and length--tension relationships were assessed. The pressure--length relationship was shifted to left in SHR as compared to NWR. The amounts of cardiac elastin and collagen were determined spectrophotometrically by measuring desmosine--isodesmosine and hydroxyproline contents, respectively. A negative correlation between elastic tensile strength and elastin/collagen ratio was elucidated. To create situation analogous to heart failure and MMP activation, we treated cardiac rings with active MMP-2 and length--tension relation was measured. The relationship was shifted to right in both SHR and NWR when compared to their respective untreated groups. The results suggested that activation of MMP led to decreased cardiac tissue tensile strength and may cause systolic and diastolic dysfunction.
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PMID:Activation of matrix metalloproteinase dilates and decreases cardiac tensile strength. 1146 52

Knowledge of transcription and translation has advanced our understanding of cardiac diseases. Here, we present the hypothesis that the stability of mRNA mediated by the 3'-untranslated region (3'-UTR) plays a role in changing gene expression in cardiovascular pathophysiology. Several proteins that bind to sequences in the 3'-UTR of mRNA of cardiovascular targets have been identified. The affected mRNAs include those encoding beta-adrenergic receptors, angiotensin II receptors, endothelial and inducible nitric oxide synthases, cyclooxygenase, endothelial growth factor, tissue necrosis factor (TNF-alpha), globin, elastin, proteins involved in cell cycle regulation, oncogenes, cytokines and lymphokines. We discuss: (a) the types of 3'-UTR sequences involved in mRNA stability, (b) AUF1, HuR and other proteins that bind to these sequences to either stabilize or destabilize the target mRNAs, and (c) the potential role of the 3'-UTR mediated mRNA stability in heart failure, myocardial infarction and hypertension. We hope that these concepts will aid in better understanding cardiovascular diseases and in developing new therapies.
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PMID:The role of 3'-untranslated region (3'-UTR) mediated mRNA stability in cardiovascular pathophysiology. 1169

Despite similar clinical endpoints, heart failure resulting from dilated cardiomyopathy (DCM) or hypertrophic cardiomyopathy (HCM) appears to develop through different remodeling and molecular pathways. Current understanding of heart failure has been facilitated by microarray technology. We constructed an in-house spotted cDNA microarray using 10,272 unique clones from various cardiovascular cDNA libraries sequenced and annotated in our laboratory. RNA samples were obtained from left ventricular tissues of precardiac transplantation DCM and HCM patients and were hybridized against normal adult heart reference RNA. After filtering, differentially expressed genes were determined using novel analyzing software. We demonstrated that normalization for cDNA microarray data is slide-dependent and nonlinear. The feasibility of this model was validated by quantitative real-time reverse transcription-PCR, and the accuracy rate depended on the fold change and statistical significance level. Our results showed that 192 genes were highly expressed in both DCM and HCM (e.g., atrial natriuretic peptide, CD59, decorin, elongation factor 2, and heat shock protein 90), and 51 genes were downregulated in both conditions (e.g., elastin, sarcoplasmic/endoplasmic reticulum Ca2+-ATPase). We also identified several genes differentially expressed between DCM and HCM (e.g., alphaB-crystallin, antagonizer of myc transcriptional activity, beta-dystrobrevin, calsequestrin, lipocortin, and lumican). Microarray technology provides us with a genomic approach to explore the genetic markers and molecular mechanisms leading to heart failure.
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PMID:Microarray gene expression profiles in dilated and hypertrophic cardiomyopathic end-stage heart failure. 1211 3

Arterial compliance is determined by structural factors, such as collagen and elastin, and functional factors, such as vasoactive neurohormones. To determine whether angiotensin II contributes to decreased arterial compliance in patients with heart failure, this study tested the hypothesis that administration of an angiotensin-converting enzyme inhibitor improves arterial compliance. Arterial compliance and stiffness were determined by measuring carotid artery diameter, using high-resolution duplex ultrasonography, and blood pressure in 23 patients with heart failure secondary to idiopathic dilated cardiomyopathy. Measurements were made before and after intravenous administration of enalaprilat (1 mg) or vehicle. Arterial compliance was inversely related to both baseline plasma angiotensin II (r = -0.52; P = 0.015) and angiotensin-converting enzyme concentrations (r = -0.45; P = 0.041). During isobaric conditions, enalaprilat increased carotid artery compliance from 3.0 +/- 0.4 to 5.0 +/- 0.4 x 10(-10) N(-1). m(4) (P = 0.001) and decreased the carotid artery stiffness index from 17.5 +/- 1.8 to 10.1 +/- 0.6 units (P = 0.001), whereas the vehicle had no effect. Thus angiotensin II is associated with reduced carotid arterial compliance in patients with congestive heart failure, and angiotensin-converting enzyme inhibition improves arterial elastic properties. This favorable effect on the pulsatile component of afterload may contribute to the improvement in left ventricular performance that occurs in patients with heart failure treated with angiotensin-converting enzyme inhibitors.
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PMID:Angiotensin II contributes to arterial compliance in congestive heart failure. 1223 93


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