Sequential Activation of Matrix Metalloproteinase 9 and Transforming Growth Factor β in Arterial Elastocalcinosis

Bouvet, Céline; Moreau, Simon; Blanchette, Joannie; Blois, Denis de; Moreau, Pierre

doi:10.1161/atvbaha.107.153056

Cited by 94 publications

(73 citation statements)

References 42 publications

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“…However, our histologic analysis of the elastic lamellae in calcifying arteries of rats treated with warfarin to induce elastocalcinosis (30,31,56) did not reveal overt elastin fragmentation (data not shown) in contrast to MGP null arteries. Further, in warfarin- induced calcification, previous studies identified activation of MMP-9 and no induction of serine elastases (22), whereas in the MGP null arteries, the elevated elastase activity is derived from the serine protease adipsin. Together, these results question the role of MGP carboxylation in the regulation of elastolytic activity in VSMCs.…”

Section: Discussionmentioning

confidence: 89%

Two Sides of MGP Null Arterial Disease

Beazley

Reckard

Nurminsky

et al. 2013

Journal of Biological Chemistry

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Background: MGP inhibits tissue calcification, but underlying mechanisms are understudied. Results: In MGP null mice, TG2 ablation prevents calcifying cartilaginous vascular lesions but does not affect elastocalcinosis and elastin fragmentation associated with increased elastase adipsin. Conclusion: MGP acts via two distinct mechanisms. Significance: Our study identifies TG2 and adipsin as potential therapeutic targets in vascular disease linked to MGP deficiency.

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Section: Discussionmentioning

confidence: 89%

Two Sides of MGP Null Arterial Disease

Beazley

Reckard

Nurminsky

et al. 2013

Journal of Biological Chemistry

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“…However, we cannot exclude a possible contribution of severe calcification to vascular stiffness at more advanced stages (such as stage 4 or 5 CKD 22 ) because severe calcification induced by vitamin D 3 plus nicotine or by warfarin plus vitamin K 1 in rat models has been shown to be associated with increased aortic stiffness. 12,23,24 It should be noted that in these 2 animal models, the authors observed an elevation in the ratio of aortic collagen to elastin in association with the vascular calcifications, which may be the result of severe elastocalcinosis inducing destruction of elastic fibers and thus leading to arterial stiffness. 24,25 We did not observe this type of change in the ratio of aortic collagen to elastin; this could explain the absence of a correlation between vascular calcification and vascular stiffness in our present experiments.…”

Section: Discussionmentioning

confidence: 93%

“…Major medial calcifications are certainly an important factor in aortic stiffness alteration. 12 However, the development of mild to moderate calcifications such as those observed in earlier stages of CKD may not necessarily correlate with the development of aortic PWV alterations.…”

mentioning

confidence: 99%

Mechanisms of Aortic and Cardiac Dysfunction in Uremic Mice With Aortic Calcification

et al. 2009

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Background-Chronic renal failure (CRF) is associated with cardiac dysfunction and increased aortic stiffness. The mechanisms involved are not clearly understood. We examined changes over time in cardiac and aortic function in a murine CRF model. Methods and Results-Eight-week-old mice were randomly assigned to 1 of 4 groups: wild-type non-CRF, wild-type CRF, apolipoprotein E knockout non-CRF, and apolipoprotein E knockout CRF. Echocardiography was performed and blood samples were taken at baseline and after 6 and 10 weeks of CRF. Vascular reactivity and adhesion molecule expression were studied after 6 and 10 weeks of CRF. Left ventricular hypertrophy, altered left ventricular relaxation, and increased aortic stiffness were observed after 6 weeks of CRF and persisted after 10 weeks. The 4 groups of mice did not significantly differ in terms of arterial blood pressure and aortic structure. The degree of vascular calcification and serum total cholesterol concentration were higher in the CRF groups than in the non-CRF groups. These changes, however, could not explain the cardiac and vascular differences seen in the 2 CRF groups. In contrast, alterations in vascular reactivity, the upregulation of adhesion molecule expression, and CRF status were significantly associated with these changes. Conclusions-In a mouse model of CRF, left ventricular hypertrophy, cardiac diastolic dysfunction, and increased aortic stiffness were not related to structural changes in the aorta (including aortic calcification) or high serum cholesterol levels. However, cardiac and aortic abnormalities were associated with the extent of subendothelial dysfunction and the severity of CRF.

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“…During atherogenesis, macrophage-derived elastases, such as elastolytic cathepsins or MMPs (MMP-2 and MMP-9), have been shown to degrade medial elastin, which favors calcification through an increase of elastin polarity that, in turn, enhances elastin affinity for calcium (Sasaki et al, unpublished data, 2011). 86,87 Recently, the data from cathepsin S-deficient mice have provided new insights into the pathobiology of arterial calcification and have aided the investigation of novel therapeutic strategies to reduce the onset of cardiovascular events and, thus, mortality (Table). 88 …”

Section: Atherosclerosis-related Vasa Vasorummentioning

confidence: 99%

Cysteine Protease Cathepsins in Atherosclerosis-Based Vascular Disease and Its Complications

et al. 2011

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Abstract-Atherosclerosis-based vascular disease is an inflammatory disease characterized by extensive remodeling of the extracellular matrix architecture of the arterial wall. Although matrix metalloproteinases and serine proteases participate in these pathological events, the discovery of cysteine protease cathepsins, such as cathepsins K, S, L, and B, and cystatin C, and their tissue distribution has suggested that at least some of them participate in cardiovascular disease. Studies on vascular cells have shown that atherosclerosis-associated inflammatory cytokines augment cysteinyl cathepsin expression and activity. Novel insight into cathepsin functions has been made possible by the generation and in-depth analysis of knockout and transgenic mice. These studies have provided direct evidence implicating cathepsins in atherosclerosis-based vascular disease through the activation, liberation, and modification of angiogenic growth factors, cytokines, and proteases associated with lipid metabolism, cell events (migration, invasion, proliferation, and apoptosis), angiogenesis, and matrix protein remodeling. Furthermore, evaluation of the feasibility of cathepsins as a diagnostic tool has revealed that the serum cathepsins S and L and the endogenous inhibitor cystatin C hold promise as biomarkers of coronary artery disease and aneurysm formation.

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Sequential Activation of Matrix Metalloproteinase 9 and Transforming Growth Factor β in Arterial Elastocalcinosis

Cited by 94 publications

References 42 publications

Two Sides of MGP Null Arterial Disease

Two Sides of MGP Null Arterial Disease

Mechanisms of Aortic and Cardiac Dysfunction in Uremic Mice With Aortic Calcification

Cysteine Protease Cathepsins in Atherosclerosis-Based Vascular Disease and Its Complications

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