Sirt1 Regulates Aging and Resistance to Oxidative Stress in the Heart

Author:

Alcendor Ralph R.1,Gao Shumin1,Zhai Peiyong1,Zablocki Daniela1,Holle Eric1,Yu Xianzhong1,Tian Bin1,Wagner Thomas1,Vatner Stephen F.1,Sadoshima Junichi1

Affiliation:

1. From the Cardiovascular Research Institute (R.R.A., S.G., P.Z., D.Z., S.F.V., J.S.), Department of Cell Biology and Molecular Medicine; Department of Biochemistry and Molecular Biology (B.T.), University of Medicine & Dentistry of New Jersey, New Jersey Medical School, Newark; and Oncology Research Institute (E.H., X.Y., T.W.), Greenville, SC.

Abstract

Silent information regulator (Sir)2, a class III histone deacetylase, mediates lifespan extension in model organisms and prevents apoptosis in mammalian cells. However, beneficial functions of Sir2 remain to be shown in mammals in vivo at the organ level, such as in the heart. We addressed this issue by using transgenic mice with heart-specific overexpression of Sirt1, a mammalian homolog of Sir2. Sirt1 was significantly upregulated (4- to 8-fold) in response to pressure overload and oxidative stress in nontransgenic adult mouse hearts. Low (2.5-fold) to moderate (7.5-fold) overexpression of Sirt1 in transgenic mouse hearts attenuated age-dependent increases in cardiac hypertrophy, apoptosis/fibrosis, cardiac dysfunction, and expression of senescence markers. In contrast, a high level (12.5-fold) of Sirt1 increased apoptosis and hypertrophy and decreased cardiac function, thereby stimulating the development of cardiomyopathy. Moderate overexpression of Sirt1 protected the heart from oxidative stress induced by paraquat, with increased expression of antioxidants, such as catalase, through forkhead box O (FoxO)-dependent mechanisms, whereas high levels of Sirt1 increased oxidative stress in the heart at baseline. Thus, mild to moderate expression of Sirt1 retards aging of the heart, whereas a high dose of Sirt1 induces cardiomyopathy. Furthermore, although high levels of Sirt1 increase oxidative stress, moderate expression of Sirt1 induces resistance to oxidative stress and apoptosis. These results suggest that Sirt1 could retard aging and confer stress resistance to the heart in vivo, but these beneficial effects can be observed only at low to moderate doses (up to 7.5-fold) of Sirt1.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Cardiology and Cardiovascular Medicine,Physiology

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