Role of Matrix Metalloproteinases in Blood Flow–Induced Arterial Enlargement

Tronc, François; Mallat, Ziad; Lehoux, Stéphanie; Wassef, Michel; Esposito, Bruno; Tedgui, Alain

doi:10.1161/01.atv.20.12.e120

Cited by 271 publications

(243 citation statements)

References 41 publications

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“…Nonetheless, as a result of MMP inhibition, hypertrophic arterial remodeling was prevented. This is in line with studies showing prevention of blood flow-induced artery enlargement 31 and inhibition of several phases of intimal thickening after arterial injury. 32 In contrast to results obtained in large arteries, doxycycline treatment did not modify vascular remodeling in mesenteric arteries, suggesting that despite the increase of MMP-2 activity, this family of enzymes does not appear to be necessary for the eutrophic remodeling process to occur.…”

Section: Bouvet Et Al Matrix Changes During Eutrophic Remodelingsupporting

confidence: 91%

Different Involvement of Extracellular Matrix Components in Small and Large Arteries During Chronic NO Synthase Inhibition

et al. 2005

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Abstract-In essential hypertension, conduit arteries present hypertrophic remodeling (increased cross-sectional area), whereas small arteries undergo eutrophic remodeling. The involvement of matrix metalloproteinases (MMPs) and de-adhesion proteins, such as tenascin-C and thrombospondin, has been relatively well characterized in large artery remodeling, but their contribution is not known in small artery remodeling. Rats received N -nitro-L-arginine methyl ester (L-NAME; 50 mg/kg per day) in their drinking water on days 1, 3, 7, 14, and 28. Arterial MMP-2 activity was measured by ELISA, whereas levels of tenascin-C and thrombospondin were assessed by Western blotting. To determine the involvement of MMPs, additional L-NAME rats received the nonselective MMP inhibitor doxycycline (30 mg/kg per day) on days 7, 14, and 28. Already, at day 1, pressure was elevated. Media/lumen ratio of mesenteric arteries and the aorta increased gradually to reach significance at 28 days. However, the cross-sectional area increased only in the aorta, confirming the heterogeneous remodeling process. In small arteries, MMP-2 activity increased after 7 and 14 days of treatment and returned to baseline at 28 days, whereas the elevation was more progressive but sustained in the aorta. The level of thrombospondin paralleled that of MMP-2 in small arteries, whereas tenascin-C levels declined rapidly and stayed below control values. Doxycycline blunted large artery remodeling but had no influence on the development of eutrophic remodeling despite elevation of MMP-2 activity in the process. Thus, in contrast to large artery hypertrophic remodeling, in which the contributions of cellular de-adhesion and matrix breakdown is manifest, the contribution of MMPs in eutrophic remodeling appears less crucial. Key Words: nitric oxide synthase Ⅲ arteries V ascular remodeling is considered an adaptive response to elevation of arterial pressure to normalize the wall tension. In essential hypertension, large artery remodeling is characterized by an increase in media thickness-lumen diameter (M/L) ratio and cross-sectional area (CSA). This augmentation of media mass, or hypertrophic remodeling, is explained by changes in size or number of vascular smooth muscle cells (VSMCs) and matrix collagen deposition. 1 In resistance arteries (diameter Ͻ300 m), essential hypertension is associated with a reduced lumen and increased M/L ratio but without CSA increase, producing a type of remodeling designated as inward eutrophic remodeling. 2 To explain this different response between large and small arteries, it is suggested that small arteries are not submitted to an augmented wall stress because they are initially constricted. 3-5 Thus, we hypothesized that inward eutrophic remodeling, which appears as a fixed form of vasoconstriction, could proceed through specific modifications of VSMC-matrix interactions.As in essential hypertension, chronic inhibition of NO synthesis with the L-arginine analogue N -nitro-L-arginine methyl ester (L-NAME) produces hypertrophic re...

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Section: Bouvet Et Al Matrix Changes During Eutrophic Remodelingsupporting

confidence: 91%

Different Involvement of Extracellular Matrix Components in Small and Large Arteries During Chronic NO Synthase Inhibition

et al. 2005

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“…[5] Simultaneously, MMP activation has been found to facilitate flow-induced internal elastic lamina (IEL) fragmentation. [8] Similar IEL fragmentation is a feature commonly observed in atherosclerotic lesions. [9] Vascular smooth muscles cells (VSMCs), mainly found in the media layer, are recognized as major producers of matrix in the vessel wall.…”

Section: Pathogenesismentioning

confidence: 77%

Inflammation in human cerebral aneurysms: pathogenesis, diagnostic imaging, genetics, and therapeutics

Dooley¹,

Hudson²,

Hasan³

2015

Neuroimmunol Neuroinflammation

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Intracranial aneurysms are a life-threatening cerebrovascular pathology with a probability of spontaneous rupture. Current intervention techniques carry inherent risk. Recent investigation has reinforced inflammation's role in the pathophysiological process of cerebral aneurysms. These data suggest alternative diagnostic and noninvasive therapeutic strategies. Furthermore, novel characteristics of the underlying disease have been elucidated through distinct bioinformatic and gene expression profile analyses. This article will emphasize the most recent investigation, highlighting findings of clinical significance and etiological relevance.

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“…Key findings from this seminal study include the following (26): (1) HO-1 gene expression was markedly induced in HO-1 1 /1 mice compared with HO-1 2/2 mice, (2) strong HO-1 protein expression was present in vascular smooth muscle cells in HO-1 1/1 mice, (3) patency rates for AVF were significantly higher in HO-1 1/1 mice, with less vein wall thickness and increased luminal area compared with HO-1 2/2 mice at 3 weeks, and (4) expression of proinflammatory and prooxidant mediators, such as monocyte chemoattractant protein-1 (MCP-1) and matrix metalloproteinases-2 and 9 (MMP-2 and MMP-9), was considerably greater in HO-1 2/2 than in HO-1 1/1 mice. MMPs play an important role in both inward (vasoconstriction) and outward vascular remodeling because they (1) are key enzymes that cause the breakdown of extracellular matrix proteins, such as collagen and elastin, to promote vasodilation (27,28) and (2) facilitate the proliferation and migration of smooth muscle cells and inflammatory cells, important processes in neointima hyperplasia development and vascular stenosis (29,30). The absence of HO-1 may lead to more prooxidant and proinflammatory effects from MMPs, as demonstrated in this study by Juncos et al (26).…”

Section: Experimental Models Exploring Downstream Vascular Biology Anmentioning

confidence: 99%

Novel Paradigms for Dialysis Vascular Access

Lee

2013

Clinical Journal of the American Society of Nephrology

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SummaryVascular access dysfunction is a major cause of morbidity and mortality in hemodialysis patients. The most common cause of vascular access dysfunction is venous stenosis from neointimal hyperplasia within the perianastomotic region of an arteriovenous fistula and at the graft-vein anastomosis of an arteriovenous graft. There have been few, if any, effective treatments for vascular access dysfunction because of the limited understanding of the pathophysiology of venous neointimal hyperplasia formation. This review will (1) describe the histopathologic features of hemodialysis access stenosis; (2) discuss novel concepts in the pathogenesis of neointimal hyperplasia development, focusing on downstream vascular biology; (3) highlight future novel therapies for treating downstream biology; and (4) discuss future research areas to improve our understanding of downstream biology and neointimal hyperplasia development.

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Role of Matrix Metalloproteinases in Blood Flow–Induced Arterial Enlargement

Cited by 271 publications

References 41 publications

Different Involvement of Extracellular Matrix Components in Small and Large Arteries During Chronic NO Synthase Inhibition

Different Involvement of Extracellular Matrix Components in Small and Large Arteries During Chronic NO Synthase Inhibition

Inflammation in human cerebral aneurysms: pathogenesis, diagnostic imaging, genetics, and therapeutics

Novel Paradigms for Dialysis Vascular Access

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