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Cystatin C Deficiency Increases Elastic Lamina Degradation and Aortic Dilatation in Apolipoprotein E–Null Mice

2005; Lippincott Williams & Wilkins; Volume: 96; Issue: 3 Linguagem: Inglês

10.1161/01.res.0000155964.34150.f7

1524-4571

Galina K. Sukhova, Bing Wang, Peter Libby, Jiehong Pan, Yaou Zhang, Anders Grubb, Kenneth C. Fang, Harold A. Chapman, Guo‐Ping Shi,

Aortic aneurysm repair treatments

The pathogenesis of atherosclerosis and abdominal aortic aneurysm involves substantial proteolysis of the arterial extracellular matrix. The lysosomal cysteine proteases can exert potent elastolytic and collagenolytic activity. Human atherosclerotic plaques have increased cysteine protease content and decreased levels of the endogenous inhibitor cystatin C, suggesting an imbalance that would favor matrix degradation in the arterial wall. This study tested directly the hypothesis that impaired expression of cystatin C alters arterial structure. Cystatin C–deficient mice (Cyst C −/− ) were crossbred with apolipoprotein E–deficient mice (ApoE −/− ) to generate cystatin C and apolipoprotein E–double deficient mice (Cyst C −/− ApoE −/− ). After 12 weeks on an atherogenic diet, cystatin C deficiency yielded significantly increased tunica media elastic lamina fragmentation, decreased medial size, and increased smooth muscle cell and collagen content in aortic lesions of ApoE −/− mice. Cyst C −/− ApoE −/− mice also showed dilated thoracic and abdominal aortae compared with control ApoE −/− mice, although atheroma lesion size, intimal macrophage accumulation, and lipid core size did not differ between these mice. These findings demonstrate directly the importance of cysteine protease/protease inhibitor balance in dysregulated arterial integrity and remodeling during experimental atherogenesis.