Cardiac mast cell regulation of matrix metalloproteinase-related ventricular remodeling in chronic pressure or volume overload

doi:10.1016/j.cardiores.2005.10.020

Cardiovascular Research 2006 69(3):657-665; doi:10.1016/j.cardiores.2005.10.020

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Cardiac mast cell regulation of matrix metalloproteinase-related ventricular remodeling in chronic pressure or volume overload

Joseph S. Janicki^*, Gregory L. Brower, Jason D. Gardner, Mary F. Forman, James A. Stewart, Jr., David B. Murray and Amanda L. Chancey

Department of Cell and Developmental Biology & Anatomy, School of Medicine, University of South Carolina, Columbia, SC 29208, United States

^* Corresponding author. Tel.: +1 803 733 1536; fax: +1 803 733 1533. Email address: jjanicki{at}gw.med.sc.edu

The chronic elevation in ventricular wall stress secondary toventricular volume or pressure overload leads to structuralremodeling of the muscular, vascular and extracellular matrixcomponents of the myocardium. While initially a compensatoryresponse, the progressive hypertrophy and ventricular dilatationinduced by this condition ultimately have a detrimental effecton ventricular function, resulting in heart failure. Fibrillarcollagen provides the skeletal framework which interconnectsthe cardiomyocytes, thereby maintaining ventricular shape andsize and contributing to tissue stiffness. Accordingly, thesemyocardial collagen fibers must be disrupted for ventriculardilatation, sphericalization and wall thinning to occur. Thepresence of an abundant, latent matrix metalloproteinase (MMP)population which coexists with myocardial fibrillar collagenhas been documented. Thus, the potential for collagen degradationto exceed synthesis exists should there be significant activationof this latent MMP system. Mast cells are known to store andrelease a variety of biologically active mediators includingTNF- ${alpha}$ and proteases such as tryptase and chymase, which can induceMMP activation. Increased cardiac mast cell density has beenimplicated in the pathophysiology of human end-stage cardiomyopathyand experimental myocardial infarction, hypertension and chronicvolume overload secondary to mitral regurgitation and aorto-cavalfistula. The potential role of cardiac mast cells in activatingMMPs, which then results in fibrillar collagen degradation andadverse myocardial remodeling secondary to chronic volume andpressure overload will be the subject of this review.

KEYWORDS Extracellular matrix; Remodeling; Matrix metalloproteinase; Cytokines; Proteases

Time for primary review 19 days

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