Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The effects of the angiotensin II receptor type 1 (AT1) antagonist losartan on pressure overload-induced left ventricular (LV) hypertrophy were studied in female Sprague-Dawley rats. Starting on the day of surgery, losartan (L, 12 mg/kg/day) was administered as continuous intraperitoneal infusion for 2 weeks by using alzet mini-osmotic-pumps (model 2002). This dose of losartan shifted the in vivo dose-response curve of the angiotensin II-induced elevation of left ventricular systolic pressure (LVSP) to the right. Pressure overload was achieved by placing a band around the aortic arch. This caused an aortic stenosis (AS) with an outer diameter of 1.0 mm. The hemodynamic effects were measured in the intact, anesthetized rats (n = 15). The hearts were excised, and the weights of the left (LV) and right ventricle (RV) were determined. Some of these hearts (n = 7) were perfused with collagenase to obtain isolated cardiac myocytes for the measurement of cell volume. Other hearts (n = 8) were examined for morphological changes. In the animals with AS, LVSP was markedly elevated. Furthermore, LV weight and LV myocyte cell volume were increased in this group, while RV weight and RV myocyte cell volume remained stable in all the groups. L had no significant effect on the AS-induced increase in LVSP and cell size parameters, nor on the weight gain of the LV. Histological analysis revealed that the AS-induced enlargement of the mean myocyte diameter was not affected by L. The interstitial collagen fraction was increased in the AS rats and became normalized by L. These data suggest that the renin-angiotensin system might not be involved in the development of pressure-induced cardiac hypertrophy within the time-frame of these experiments, but that it does play a major role in the genesis of the interstitial fibrosis which is a typical feature of this pathophysiological condition.
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PMID:Differential effects of angiotensin II receptor blockade on pressure-induced left ventricular hypertrophy and fibrosis in rats. 1009 56

The systemic response to endotoxin is characterized by hypotension and severe reductions in blood pressure, leading to cardiovascular collapse that can accompany septicemia. The renin/angiotensin system would normally be expected to respond to hypotensive challenge; however, inflammation appears to modify this response. This study identifies a strong acute phase response of the kidney that is characterized by enhanced expression of serum amyloid A, haptoglobin and tissue inhibitor for metalloproteinase-1 and a reduced expression of renin. Equivalent regulatory effects were observed for the immortalized As4.1 kidney cell line that models certain features of juxtaglomerular cells. Oncostatin M, a known endotoxin-responsive proinflammatory cytokine, proved to be an effective inhibitor of renin gene expression. Suppression by oncostatin M involves activated STAT5 and requires an inhibitory element in the renin promoter that functions separately from cell type-specific enhancer elements. The renal acute phase reaction, unlike the liver acute phase reaction, is more strongly dependent on locally produced inflammatory factors.
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PMID:Endotoxin-induced renal inflammatory response. Oncostatin M as a major mediator of suppressed renin expression. 1080 9

Considerable evidence suggests that the intrarenal renin-angiotensin system plays an important role in diabetic nephropathy. Angiotensin-converting enzyme (ACE) inhibitors and angiotensin II (Ang II) receptor blockers (ARBs) can attenuate progressive glomerulosclerosis in disease models and can slow disease progression in humans. Because agents that interfere with Ang II action may decrease glomerular injury without altering glomerular pressures, it has been suggested that Ang II has direct effects on glomerular cells to induce sclerosis independent of its hemodynamic actions. To study nonhemodynamic effects of Ang II on matrix metabolism, many investigators have used cell culture systems. Glucose and Ang II have been shown to produce similar effects on renal cells in culture. For instance, incubation of mesangial cells in high-glucose media or in the presence of Ang II stimulates matrix protein synthesis and inhibits degradative enzyme (e.g., collagenase, plasmin) activity. Glucose and Ang II also can inhibit proximal tubule proteinases. Glucose increases expression of the angiotensinogen gene in proximal tubule cells and Ang II production in primary mesangial cell culture, which indicates that high glucose itself can activate the renin-angiotensin system. The effects of glucose and Ang II on mesangial matrix metabolism may be mediated by transforming growth factor-beta (TGF-beta). Exposure of mesangial cells to glucose or Ang II increases TGF-beta expression and secretion. Their effects on matrix metabolism can be blocked by anti-TGF-beta antibody or ARBs such as losartan, which also prevents the glucose-induced increment in TGF-beta secretion. Taken together, these findings support the hypothesis that the high-glucose milieu of diabetes increases Ang II production by renal, and especially, mesangial cells, which results in stimulation of TGF-beta secretion, leading to increased synthesis and decreased degradation of matrix proteins, thus producing matrix accumulation. This may be an important mechanism linking hyperglycemia and Ang II in the pathogenesis of diabetic nephropathy.
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PMID:Role of angiotensin II in diabetic nephropathy. 1099 97

Prostaglandins participate in the regulation of sodium and water renal excretion. They are synthesized by cyclooxygenases (COX): the constitutive isoform and the enzyme regulated by physiological stimuli (COX-2). Our previous immunohistochemical studies have demonstrated the presence of COX-2 in a subset of thick ascending limb (TAL) of Henle cells and its induction during the postnatal period and after adrenalectomy. Previous results suggested that this induction phenomenon proceeds by recruitment of TAL cells from the cortex to the outer medulla. The present work aimed to specifically address these preliminary observations by using immunohistochemical techniques in single microdissected nephron segments. Normal adult rats, adrenalectomized rats, adrenalectomized rats on dexamethasone and 5, 10, and 15 days postnatal age were used (Sprague-Dawley rats, n= 5 each group). Glomeruli and different segments of nephron were microdissected from collagenase-treated kidney tissue. Tubules were immunostained with specific antibodies against COX-2. We confirmed that COX-2 was localized exclusively in TAL segments; it was induced after adrenalectomy and during postnatal age, peaking at 15 days after birth. We provided morphological evidence that the induction of COX-2 along TAL proceeded in a defined pattern by recruitment of cells from the cortical portion close to the glomeruli toward the outer medulla. No COX-2 was observed in the post-macula densa portion of the segments. Our results provide the anatomical basis for the contribution of COX-2 in physiological mechanisms such as renin secretion, tubuloglomerular feedback, and the interaction with neuronal NO synthase at the juxtaglomerular apparatus.
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PMID:Renal cyclooxygenase-2: evidence for recruitment of thick ascending limb of henle cells in microdissected nephron segments. 1156 45

Aortic stenosis (AS) results in myocyte and extracellular matrix remodeling in the human left ventricle (LV). The myocardial renin-angiotensin system is activated and collagens I and III and fibronectin accumulate. We determined the yet unknown regulation of enzymes that control collagen turnover, i.e., LV matrix metalloproteinases (MMP) and their tissue inhibitors (TIMPs) in human AS. We compared LV samples from AS patients undergoing elective aortic valve replacement (n=19) with nonused donor hearts with normal LV function (controls, n=12). MMP-2, MMP-9, MT1-MMP, and extracellular matrix metalloproteinase inducer (EMMPRIN), TIMP-1, TIMP-2, TIMP-3, and TIMP-4 mRNA were quantitated by real-time RCR. MMP-1, MMP-2, MMP-3, TIMP-3, TIMP-4, and EMMPRIN protein were measured by immunoblotting and MMP-9 and TIMP-1 protein by ELISA. Gelatinolytic MMP-2 and MMP-9 activity was measured by zymography. MMP-2 was increased in AS at mRNA, protein, and activity levels (131%, 193%, and 138% of controls). MMP-3 protein (308%) and EMMPRIN mRNA and protein were also upregulated (171% and 200%). In contrast, MMP-1 (37%) and MMP-9 mRNA, protein, and activity (26%, 21%, and 52%) were downregulated. MMP-9 activity was inversely correlated with LV size. TIMP-1 mRNA and protein were decreased (55% and 73%). In contrast, TIMP-2 mRNA (358%), TIMP-3 mRNA and protein (145% and 249%) were increased. TIMP-4 mRNA was not altered, but TIMP-4 protein was upregulated to 350%. Changes were similar in AS patients with normal and impaired LV ejection fraction. The dysregulation of myocardial MMPs and TIMPs in human AS starts at an early disease stage when LV function is still normal. In spite of upregulation of some MMPs the balance between MMP and TIMP is shifted towards MMP inhibition in human AS and may contribute to collagen accumulation.
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PMID:Regulation of matrix metalloproteinases and their inhibitors in the left ventricular myocardium of patients with aortic stenosis. 1555 Nov 7

The renin-angiotensin system contributes to atherogenesis. Matrix metalloproteinases (MMP) are thought to participate in plaque destabilization through degradation of extracellular matrix. This study tested whether angiotensin II (ANG II) induces MMP in human vascular smooth muscle cells (SMC). ANG II induced expression of MMP-1, -3, and -9, but not of MMP-2 in SMC. The expression of MMP-1, a key enzyme for collagen degradation, was studied in detail. SMC stimulated with ANG II concentration-dependently released enzymatically active MMP-1. The ANG II type 1 receptor antagonists losartan and candesartan blocked ANG-II-induced MMP-1 release. Inhibition experiments with actinomycin D suggest ANG-II-induced MMP-1 mRNA regulation at the transcriptional level. Decoy oligodeoxynucleotides against nuclear factor-kappaB and activator protein 1 inhibited MMP-1 secretion, demonstrating participation of these transcription factors in MMP-1 transcription. Stimulation of MMP-1 by ANG II depended on cyclooxygenase 2. The antioxidants pyrrolidine dithiocarbamate and N-acetylcysteine, the flavin protein inhibitor diphenylene iodonium, and the NADP(H) oxidase inhibitor apocynin blocked MMP-1 release, suggesting a redox-sensitive mechanism involving NADP(H) oxidase. The reactive oxygen species (ROS) donor 2,3-dimethoxy-1,4-naphthoquinone induced MMP-1 secretion and enhanced ANG-II-stimulated MMP-1 expression. These findings indicate that ROS may increase their own production by activation of NADP(H) oxidase. The capability of ANG II to induce functionally active MMP in human SMC may contribute to the altered plaque composition seen in complicated stages of atherosclerosis.
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PMID:Angiotensin II stimulates matrix metalloproteinase secretion in human vascular smooth muscle cells via nuclear factor-kappaB and activator protein 1 in a redox-sensitive manner. 1610 92

Glomerulosclerosis, interstitial fibrosis, and tubular atrophy occur with end-stage kidney failure, irrespective of the primary etiology. The transforming growth factor-beta (TGF-beta) is a key factor in these alterations either directly, by stimulating synthesis of extracellular matrix components and reducing collagenase production, or indirectly through other profibrogenic factors such as connective tissue growth factor (CTGF). TGF-beta is important for the proliferation of intrarenal fibroblasts and the epithelial-mesenchymal transition through which tubular cells become fibroblasts. Although several factors induce TGF-beta expression in the kidney, one very interesting aspect is the link between the renin-angiotensin-aldosterone (Aldo) system (RAAS) and TGF-beta. Angiotensin II (ANG II) stimulates TGF-beta expression in the kidney by various mechanisms and upregulates receptors for TGF-beta. ANG II can directly phosphorylate Smads without inducing TGF-beta. Recent data provide compelling evidence that other components of the RAAS including ANG III, renin, and Aldo also activate the TGF-beta system. As direct modulation of the TGF-beta system is not yet feasible in humans, angiotensin-converting enzyme (ACE) inhibitors and angiotensin type 1 (AT1)-receptor blockers are currently the most potential drugs to interfere with this ANG II-mediated TGF-beta expression. This review highlights some current aspects of the interaction between the RAAS and the TGF-beta axis.
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PMID:Renal injury due to renin-angiotensin-aldosterone system activation of the transforming growth factor-beta pathway. 1698 15

Angiotensin II (Ang II) is a critical effector in the renin-angiotensin system (RAS), which modulates cardiovascular homeostasis, and the matrix metalloproteinases (MMPs) and tissue inhibitors of matrix metalloproteinases (TIMPs) related metabolism of extracellular matrix (ECM). Angiotensin(1-7) [Ang(1-7)] is another bioactive peptide in the RAS and is considered to have opposite effects to Ang II. However, the modulation of MMPs and TIMPs by Ang(1-7) is largely unclear in cardiocytes, and the antagonistic effects of Ang(1-7) on Ang II-mediated expression of MMPs and TIMPs have yet to be identified. In the present study, we examined the transcript expression of MMPs and TIMPs in human cardiac fibroblasts (HCF) and myocytes (HCM) after Ang II or Ang(1-7) stimulation, and analysed the antagonistic effects of Ang(1-7) to Ang II. The results show that Ang II decreased transcript expression of MMP-1, MMP-2, TIMP-1, TIMP-2 and TIMP-3, but upregulated MMP-9 expression in the HCF cells. Transcript expression of MMP-9 and TIMP-2 was downregulated by Ang(1-7) in the same cells. In the HCM cells, Ang II induced MMP-1 and MMP-9 overexpression but MMP-2 was downregulated. All of the examined MMPs and TIMPs, except MMP-9, were markedly decreased by Ang(1-7). In the studies of antagonistic effects of Ang(1-7) to Ang II, Ang(1-7) counteracted the effects of Ang II-mediated regulation on MMP-9 and TIMP-1 in the HCF cells compared with the control group. The regulations of all examined MMPs by Ang II were reversed to basal expression by Ang(1-7) in the HCM cells. Our results suggest that Ang(1-7) and Ang II have opposite and antagonistic effects on regulation of transcription of MMPs and TIMPs in primary cultures of human cardiocytes. These effects lead to increased ratios of MMPs to TIMPs after Ang II stimulation and decreased ratios of MMPs to TIMPs after Ang(1-7) stimulation; effects which may partly depend of the type of cardiac cells. These results suggest a potential role for Ang(1-7) in attenuatating cardiac damage in Ang II-induced ECM remodelling.
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PMID:Interplay of angiotensin II and angiotensin(1-7) in the regulation of matrix metalloproteinases of human cardiocytes. 1829 91

Atrial fibrillation (AF) is the most common rhythm disturbance in medical practice and represents a very expensive health problem. AF can be managed with the prevention of thromboembolism and either a rate control of rhythm strategy. As both strategies have important limitations, probably a preventative strategy in patients at risk of developing arrhythmia can be a more attractive option. The renin-angiotensin system (RAS) seems to be involved in the genesis of arrhythmia by the following two mechanisms: 1. the induction of atrial fibrosis and structural remodelling by mitogen-activated protein kinase (MAPK) expression and reduction of collagenase activity; 2. the induction of electrical remodelling by shortening of the atrial effective refractory period (AERP) and of the action potential duration. For these reasons it has been hypothesized that angiotensin-converting enzyme inhibitors (ACE-Is) and angiotensin-II receptor blockers (ARBs) may play a role in preventing AF recurrence. The aim of the present review was to analyse evidence supporting the usefulness of RAS inhibition in patients with AF in order to focus on which specific subset of patients it would most favour. After reviewing the literature, we conclude that, although many studies and meta-analysis have supported the advantage of RAS block in preventing AF recurrence, it is premature to recommend the use of ACE-Is and ARBs specifically for the prevention of AF. However we believe that as these drugs are safe and manageable, they should be considered the drugs of choice in patients with AF and coexisting clinical conditions such as hypertension, coronary disease, heart failure and diabetes mellitus.
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PMID:The role of the renin-angiotensin system in atrial fibrillation and the therapeutic effects of ACE-Is and ARBS. 1878 41


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