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:C0264733 (ventricular dilatation)
2,163 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Following myocardial infarction, extracellular matrix (ECM) is disrupted, which leads to the generation of collagen- and elastin-derived peptides (CDPs and EDPs, respectively). To investigate whether ECM-derived peptides (i.e., CDPs and EDPs) induce extracellular proteinases in human heart fibroblast (HHF) cells, we isolated CDP and EDP using gelfiltration and antibody affinity column chromatography. The CDP and EDP were characterized by their intrinsic fluorescence due to crosslink structure (pyridinoline and desmosine, respectively) and by immunoblot analysis using anti-desmosine antibody. Neutrophil elastase and cathepsin G were identified using selective chromogenic substrates and by their specific inhibition with alpha1-proteinase inhibitor and alpha1-antichymotrypsin, respectively. Elastase and cathepsin G were elevated in the infarcted tissue. Selective inhibition of matrix metalloproteinase (MMP) by a higher concentration of tetracycline or doxycycline in zymographic gels elicited an inhibition constant (IC50) of 278 +/- 10 microM and indicated that majority of MMP in the infarcted tissue is from fibroblast cells. The HHF proliferation was measured using an acid-phosphatase assay. The EDP and CDP induce HHF cell proliferation. After EDP treatment phenotypic (formation of pseudopodia) changes were observed in HHF cells. To measure whether phenotypic changes by EDP or CDP are associated with MMP and tissue inhibitor of metalloproteinase (TIMP) expression in HHF cells, we measured MMP and TIMP expression by zymographic and Northern blot (mRNA) analyses. The expression of MMP and TIMP were upregulated at both the protein and gene transcription levels. These results suggested that during ischemic cardiomyopathy, initially neutrophil proteinase activates latent myocardial MMP which can degrade ECM, which continuously degrades if not controlled by TIMP, leading to ventricular dilatation and dysfunction.
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PMID:Extracellular matrix regulation of metalloproteinase and antiproteinase in human heart fibroblast cells. 869 31

The multiple mechanisms that bring about the decompensation of the hypertrophic remodeled myocardium are synergistic and not fully understood. Our current hypothesis is that the increased stress on the ventricle is initially offset by compensatory myocardial hypertrophy. In many instances, however, progressive ventricular dilatation and heart failure occur as a result of maladaptive hypertrophy (abnormal myosin-actin production), programmed cell death (apoptosis) and/or changes in the interstitial vasculature and collagen composition. The molecular and genetic background to these processes includes changes in myocardial gene expression, activation of the local tissue renin-angiotensin and other neurohormonal systems, increased matrix metalloproteinase activity (including collagenase), and expression of certain components of the immune system, such as TNF-alpha. Future research will hopefully provide better methods for limiting the remodeling-ventricular dilatation process by novel pharmacotherapies, gene therapy and, possibly, surgical therapy, and determine the impact of such interventions on survival.
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PMID:Ventricular remodeling: from bedside to molecule. 933 Jul 35

We previously reported an approximately 50% incidence of rats with symptoms of congestive heart failure (CHF) at 8 wk postinfrarenal aorto-caval fistula. However, it was not clear whether compensatory ventricular remodeling could continue beyond 8 wk or whether the remaining animals would have developed CHF or died. Therefore, the intent of this study was to complete the characterization of this model of sustained volume overload by determining the morbidity and mortality and the temporal response of left ventricular (LV) remodeling and function beyond 8 wk. The findings demonstrate an upper limit to LV hypertrophy and substantial increases in LV volume and compliance, matrix metalloproteinase activity, and collagen volume fraction associated with the development of CHF. There was an 80% incidence of morbidity and mortality following 21 wk of chronic volume overload. These findings indicate that the development of CHF is triggered by marked ventricular dilatation and increased compliance occurring once the myocardial hypertrophic response is exhausted.
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PMID:Contribution of ventricular remodeling to pathogenesis of heart failure in rats. 1115 66

Increased activity of matrix metalloproteinases (MMPs) has been implicated in numerous disease processes, including tumor growth and metastasis, arthritis, and periodontal disease. It is now becoming increasingly clear that extracellular matrix degradation by MMPs is also involved in the pathogenesis of cardiovascular disease, including atherosclerosis, restenosis, dilated cardiomyopathy, and myocardial infarction. Administration of synthetic MMP inhibitors in experimental animal models of these cardiovascular diseases significantly inhibits the progression of, respectively, atherosclerotic lesion formation, neointima formation, left ventricular remodeling, pump dysfunction, and infarct healing. This review focuses on the role of MMPs in cardiovascular disease, in particular myocardial infarction and the subsequent progression to heart failure. MMPs, which are present in the myocardium and capable of degrading all the matrix components of the heart, are the driving force behind myocardial matrix remodeling. The recent finding that acute pharmacological inhibition of MMPs or deficiency in MMP-9 attenuates left ventricular dilatation in the infarcted mouse heart led to the proposal that MMP inhibitors could be used as a potential therapy for patients at risk for the development of heart failure after myocardial infarction. Although these promising results encourage the design of clinical trials with MMP inhibitors, there are still several unresolved issues. This review describes the biology of MMPs and discusses new insights into the role of MMPs in several cardiovascular diseases. Attention will be paid to the central role of the plasminogen system as an important activator of MMPs in the remodeling process after myocardial infarction. Finally, we speculate on the use of MMP inhibitors as potential therapy for heart failure.
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PMID:Matrix metalloproteinase inhibition after myocardial infarction: a new approach to prevent heart failure? 1148 70

Mast cells contain proteases capable of activating matrix metalloproteinases (MMPs). However, given the relatively low density of mast cells in the myocardium (i.e., 1.5-5.3 cells/mm(2)), it is unknown whether these enzymes are present in sufficient quantities in the normal heart to mediate MMP activation. Accordingly, this study sought to determine whether chemically induced degranulation of cardiac mast cells (with compound 48/80) would have an effect in isolated, blood-perfused, functioning rat hearts. Mast cell degranulation produced a 15% increase in histamine levels present in the coronary efflux, a significant increase in myocardial water (i.e., edema) relative to normal values (80.1 +/- 3.4% vs. 77.4 +/- 1.08%, P < or = 0.03), a substantial activation of MMP-2 (126% increase relative to controls, P < or = 0.02), and a marked decrease in myocardial collagen volume fraction (0.46 +/- 0.10% vs. 0.97 +/- 0.33%, P < or = 0.001). Furthermore, although an increase in ventricular stiffness was expected due to the extent of edema resulting from mast cell degranulation, modest ventricular dilatation was observed. These findings clearly demonstrate that the number of mast cells present in normal hearts is sufficient to mediate activation of MMPs and produce extracellular matrix degradation, thereby potentially causing subsequent ventricular dilatation.
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PMID:Cardiac mast cell-mediated activation of gelatinase and alteration of ventricular diastolic function. 1200 23

The process of cardiac remodeling in response to cardiac injury and/or persistent elevations in wall stress generally relates to the progressive changes that occur in ventricular chamber dimensions and the various components of the myocardium, in particular the cardiomyocytes and the extracellular matrix. Volume overload, pressure overload or myocardial injury produces a sustained abnormal elevation in myocardial wall stress which initiates cardiac remodeling that frequently results in ventricular decompensation and heart failure. Regardless of the inciting cause, there appear to be three distinct phases to this process. In the initial phase, fibrillar collagen is partially degraded secondary to increased matrix metalloproteinase (MMP) activity. Following this, there is a chronic compensatory phase during which MMP activity and collagen concentration return to normal while cardiomyocyte size continues to progressively increase. The final phase is attained once the compensatory hypertrophic mechanisms are exhausted and is characterized by elevated MMP activity, marked ventricular dilatation and prominent fibrosis. Details of this progressive, dynamic remodeling process and its effect on ventricular function during chronic volume overload, chronic pressure overload and following myocardial infarction will be the focus of this article.
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PMID:The dynamic interaction between matrix metalloproteinase activity and adverse myocardial remodeling. 1473 66

The objective of this study was to determine whether elevated circulating levels of endothelin (ET)-1 are capable of mediating left ventricular (LV) mast cell degranulation and thereby induce matrix metalloproteinase (MMP) activation. After the administration of 20 pg/ml ET-1 to blood-perfused isolated rat hearts, LV tissue was analyzed for signs of mast cell degranulation and MMP activation. Relative to control, ET-1 produced extensive mast cell degranulation as well as a significant increase in myocardial water content (78.8 +/- 1.5% vs. 74.2 +/- 2.2%, P <0.01), a marked 107% increase in MMP-2 activity (P <0.05), and a substantial decrease in collagen volume fraction (0.69 +/- 0.09% vs. 0.99 +/- 0.04%, P <0.001). Although the myocardial edema would be expected to increase ventricular stiffness, compliance was not altered, and moderate ventricular dilatation was observed (end-diastolic volume at end-diastolic pressure of 0 mmHg of 330.2 +/- 22.1 vs. 298.9 +/- 17.4 microl in ET-1 treated vs. control, respectively, P=0.07). Additionally, pretreatment with the mast cell stabilizer nedocromil prevented ET-1-induced changes in MMP-2 activity, myocardial water content, collagen volume fraction, and end-diastolic volume. These findings demonstrate that ET-1 is a potent cardiac mast cell secretogogue and further indicate that ET-1-mediated mast cell degranulation is a potential mechanism responsible for myocardial remodeling.
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PMID:Endothelin-1 mediates cardiac mast cell degranulation, matrix metalloproteinase activation, and myocardial remodeling in rats. 1523 95

The chronic elevation in ventricular wall stress secondary to ventricular volume or pressure overload leads to structural remodeling of the muscular, vascular and extracellular matrix components of the myocardium. While initially a compensatory response, the progressive hypertrophy and ventricular dilatation induced by this condition ultimately have a detrimental effect on ventricular function, resulting in heart failure. Fibrillar collagen provides the skeletal framework which interconnects the cardiomyocytes, thereby maintaining ventricular shape and size and contributing to tissue stiffness. Accordingly, these myocardial collagen fibers must be disrupted for ventricular dilatation, sphericalization and wall thinning to occur. The presence of an abundant, latent matrix metalloproteinase (MMP) population which coexists with myocardial fibrillar collagen has been documented. Thus, the potential for collagen degradation to exceed synthesis exists should there be significant activation of this latent MMP system. Mast cells are known to store and release a variety of biologically active mediators including TNF-alpha and proteases such as tryptase and chymase, which can induce MMP activation. Increased cardiac mast cell density has been implicated in the pathophysiology of human end-stage cardiomyopathy and experimental myocardial infarction, hypertension and chronic volume overload secondary to mitral regurgitation and aorto-caval fistula. The potential role of cardiac mast cells in activating MMPs, which then results in fibrillar collagen degradation and adverse myocardial remodeling secondary to chronic volume and pressure overload will be the subject of this review.
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PMID:Cardiac mast cell regulation of matrix metalloproteinase-related ventricular remodeling in chronic pressure or volume overload. 1637 24

Matrix metalloproteinase-9 activity is dramatically increased during the acute phase after myocardial infarction. However, the relationship between matrix metalloproteinase-9 activity and cardiac dysfunction is unclear. In 1-day post-myocardial infarction hamsters, matrix metalloproteinase-9 activity was significantly increased, while matrix metalloproteinase-2 activity was not increased. A selective matrix metalloproteinase inhibitor, [2S,4S]-N-Hydroxy-5-ethoxymethyloxy-2-methyl-4-[4-phenoxybenzoyl] aminopentanamide (ONO-4817), significantly suppressed matrix metalloproteinase-9 activity 1 day after myocardial infarction. ONO-4817 also significantly prevented the development of cardiac dysfunction and left-ventricular dilatation. Matrix metalloproteinase-9 might play a crucial role in cardiac dysfunction and left-ventricular dilatation during the very acute phase after myocardial infarction.
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PMID:Significance of matrix metalloproteinase-9 in cardiac dysfunction during the very acute phase after myocardial infarction in hamsters. 1764 9

The activity of TIMP-3, a natural tissue inhibitor of matrix metalloproteinases (MMPs), is decreased in the failing heart. This study evaluated the response to coronary ligation of cardiac structure, function, and matrix remodeling in wild-type (WT) mice, and those deficient in TIMP-3 (timp-3(-/-)). The coronary artery was ligated in timp-3(-/-) and age-matched WT mice. At various time points over the following 28-day period, left ventricular structure and function (by echocardiography, pressure-volume measurements and morphometry), MMP levels and activity, blood vessel density, cell proliferation, apoptosis, matrix structure, and inflammatory cytokine levels were assessed in both groups. After ligation, mortality was significantly greater in timp-3(-/-) than in WT mice. Morphometry and echocardiography demonstrated no difference in heart size or function prior to ligation; however, the progression of left ventricular systolic dysfunction was accelerated in timp-3(-/-) mice at 7, 14 and 28 days after infarction compared to WT controls. Left ventricular dilatation, gelatinase MMP activity, and TNF-alpha levels were significantly greater in timp-3(-/-) than in WT mice at different times after ligation. By histological evaluation, timp-3(-/-) mice exhibited significantly increased blood vessel density, cell proliferation, and apoptosis in the infarct area, and reduced collagen content in the viable remote myocardium compared to WT mice at 7 and 14 days after ligation. TIMP-3 deficiency accelerated maladaptive cardiac remodeling after a myocardial infarction by promoting matrix degradation and inflammatory cytokine expression. This study supports further investigations to determine whether such remodeling could be reduced by augmenting TIMP-3 expression in the infarcted myocardium.
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PMID:TIMP-3 deficiency accelerates cardiac remodeling after myocardial infarction. 1794 52


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