J. F. M. Smits scite author profile

Cardiac rupture is a fatal complication of acute myocardial infarction lacking treatment. Here, acute myocardial infarction resulted in rupture in wild-type mice and in mice lacking tissue-type plasminogen activator, urokinase receptor, matrix metalloproteinase stromelysin-1 or metalloelastase. Instead, deficiency of urokinase-type plasminogen activator (u-PA-/-) completely protected against rupture, whereas lack of gelatinase-B partially protected against rupture. However, u-PA-/- mice showed impaired scar formation and infarct revascularization, even after treatment with vascular endothelial growth factor, and died of cardiac failure due to depressed contractility, arrhythmias and ischemia. Temporary administration of PA inhibitor-1 or the matrix metalloproteinase-inhibitor TIMP-1 completely protected wild-type mice against rupture but did not abort infarct healing, thus constituting a new approach to prevent cardiac rupture after acute myocardial infarction.

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Matrix Metalloproteinase Inhibition After Myocardial Infarction

Creemers

Cleutjens

Smits

et al. 2001

Circulation Research

552

411

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Abstract-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. Key Words: myocardial infarction Ⅲ therapy Ⅲ matrix metalloproteinase inhibition M yocardial infarction (MI) leads to complex architectural alterations involving both the infarcted and noninfarcted myocardium. Dilatation of the left ventricle and infarct thinning, also called infarct expansion, are the most prominent structural changes in the infarct region. 1 Patients exhibiting extensive infarct expansion after MI are more likely to experience complications, such as the development of congestive heart failure, aneurysm formation, and myocardial rupture. 2 The extent of ventricular dilatation after MI is related to several factors such as the magnitude of the initial Original

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Estrogen Modulates AT ₁ Receptor Gene Expression In Vitro and In Vivo

et al. 1998

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Background-The AT 1 receptor has been implicated in the pathogenesis of hypertension and atherosclerosis. Estrogen deficiency is also associated with cardiovascular diseases. Therefore, we examined the AT 1 receptor gene expression in ovariectomized rats with and without estrogen replacement therapy and the influence of estrogen on AT 1 receptor expression in cultured vascular smooth muscle cells. Methods and Results-Rat aortic tissue was examined 5 weeks after ovariectomy. In one group, estrogen (1.7 mg estradiol) was administered during the 5-week period. Functional experiments assessed angiotensin II-induced contraction of aortic rings. AT 1 receptor mRNA levels were measured by quantitative polymerase chain reaction and Northern blotting. AT 1 receptor density was assessed by radioligand binding assays. These techniques were also applied in cultured vascular smooth muscle cells. The efficacy of angiotensin II on vasoconstriction was significantly increased in aortas from ovariectomized rats. As assessed by radioligand binding assays, AT 1 receptor density was increased to 160% without changes in receptor affinity during estrogen deficiency. AT 1 receptor mRNA levels were consistently increased to 187% in ovariectomized rats compared with sham-operated animals. Estrogen substitution therapy in ovariectomized rats reversed this AT 1 receptor overexpression. To explore the underlying mechanisms, the direct influence of estradiol on AT 1 receptor expression was investigated in VSMCs. Estradiol (1 mol/L) led to a time-dependent downregulation of AT 1 receptor mRNA, with a maximum of 33.3% at 12 hours. There was a correlative decrease in AT 1 receptor density. Conclusions-This novel observation of estrogen-induced downregulation of AT 1 receptor expression could explain the association of estrogen deficiency with hypertension and atherosclerosis, because activation of the AT 1 receptor plays a key role in the regulation of blood pressure, fluid homeostasis, and vascular cell growth. (Circulation. 1998;97:2197-2201.)Key Words: angiotensin Ⅲ hypertension Ⅲ hormones Ⅲ genes Ⅲ muscle, smooth Ⅲ atherosclerosis T he low incidence of vascular diseases in premenopausal women and the rapid increase of the risk of cardiovascular events after menopause as well as the beneficial effects of estrogen replacement therapy on cardiac and vascular morbidity have suggested a important role of estrogens in the pathogenesis of atherosclerosis. [1][2][3] In addition to its effects on classic cardiovascular risk factors, eg, in the sense of a decrease of cholesterol plasma levels, 4,5 estrogen has been recognized to directly influence vascular as well as myocardial cells. Indeed, VSMCs, myocytes, and cardiac fibroblasts have been shown to contain functional estrogen receptors. [6][7][8] Moreover, there is increasing evidence that estrogen interferes with the RAS. The production of angiotensinogen is enhanced, whereas ACE levels are decreased, by estrogens. According to a recent report, plasma renin levels are also reduced during estroge...

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Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome

Nuyens

Štengl

Dugarmaa

et al. 2001

Nat Med

239

220

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Deletion of amino-acid residues 1505-1507 (KPQ) in the cardiac SCN5A Na(+) channel causes autosomal dominant prolongation of the electrocardiographic QT interval (long-QT syndrome type 3 or LQT3). Excessive prolongation of the action potential at low heart rates predisposes individuals with LQT3 to fatal arrhythmias, typically at rest or during sleep. Here we report that mice heterozygous for a knock-in KPQ-deletion (SCN5A(Delta/+)) show the essential LQT3 features and spontaneously develop life-threatening polymorphous ventricular arrhythmias. Unexpectedly, sudden accelerations in heart rate or premature beats caused lengthening of the action potential with early afterdepolarization and triggered arrhythmias in Scn5a(Delta/+) mice. Adrenergic agonists normalized the response to rate acceleration in vitro and suppressed arrhythmias upon premature stimulation in vivo. These results show the possible risk of sudden heart-rate accelerations. The Scn5a(Delta/+) mouse with its predisposition for pacing-induced arrhythmia might be useful for the development of new treatments for the LQT3 syndrome.

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The infarcted myocardium Simply dead tissue, or a lively target for therapeutic interventions

et al. 1999

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J. F. M. Smits

Inhibition of plasminogen activators or matrix metalloproteinases prevents cardiac rupture but impairs therapeutic angiogenesis and causes cardiac failure

Matrix Metalloproteinase Inhibition After Myocardial Infarction

Estrogen Modulates AT ₁ Receptor Gene Expression In Vitro and In Vivo

Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome

The infarcted myocardium Simply dead tissue, or a lively target for therapeutic interventions

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J. F. M. Smits

Inhibition of plasminogen activators or matrix metalloproteinases prevents cardiac rupture but impairs therapeutic angiogenesis and causes cardiac failure

Matrix Metalloproteinase Inhibition After Myocardial Infarction

Estrogen Modulates AT 1 Receptor Gene Expression In Vitro and In Vivo

Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome

The infarcted myocardium Simply dead tissue, or a lively target for therapeutic interventions

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Product

Resources

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Estrogen Modulates AT ₁ Receptor Gene Expression In Vitro and In Vivo