Sirt1 protects the heart from aging and stress
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Abstract
The prevalence of heart diseases, such as coronary artery disease and congestive heart failure, increases with age. Optimal therapeutic interventions that antagonize aging may reduce the occurrence and mortality of adult heart diseases. We discuss here how molecular mechanisms mediating life span extension affect aging of the heart and its resistance to pathological insults. In particular, we review our recent findings obtained from transgenic mice with cardiac-specific overexpression of Sirt1, which demonstrated delayed aging and protection against oxidative stress in the heart. We propose that activation of known longevity mechanisms in the heart may represent a novel cardioprotection strategy against aging and certain types of cardiac stress, such as oxidative stress.
©2008 by Walter de Gruyter Berlin New York
Articles in the same Issue
- Highlight: Oxidative Stress and Senescence
- Regulation of proteasome-mediated protein degradation during oxidative stress and aging
- Cellular responses to reactive oxygen species-induced DNA damage and aging
- Sirt1 protects the heart from aging and stress
- Klotho as a regulator of oxidative stress and senescence
- Posttranscriptional gene regulation by RNA-binding proteins during oxidative stress: implications for cellular senescence
- Potential biomarkers of ageing
- Increased molecular damage and heterogeneity as the basis of aging
- Modulation of longevity-associated genes by estrogens or phytoestrogens
- FoxO transcription factors in oxidative stress response and ageing – a new fork on the way to longevity?
- Studies on the expression of 6S RNA from E. coli: involvement of regulators important for stress and growth adaptation
- New biological activity against phospholipase A2 by Turmerin, a protein from Curcuma longa L.
- Regulation of the expression of components of the exocytotic machinery of insulin-secreting cells by microRNAs
- Kinetic properties of cathepsin D and BACE 1 indicate the need to search for additional β-secretase candidate(s)
Articles in the same Issue
- Highlight: Oxidative Stress and Senescence
- Regulation of proteasome-mediated protein degradation during oxidative stress and aging
- Cellular responses to reactive oxygen species-induced DNA damage and aging
- Sirt1 protects the heart from aging and stress
- Klotho as a regulator of oxidative stress and senescence
- Posttranscriptional gene regulation by RNA-binding proteins during oxidative stress: implications for cellular senescence
- Potential biomarkers of ageing
- Increased molecular damage and heterogeneity as the basis of aging
- Modulation of longevity-associated genes by estrogens or phytoestrogens
- FoxO transcription factors in oxidative stress response and ageing – a new fork on the way to longevity?
- Studies on the expression of 6S RNA from E. coli: involvement of regulators important for stress and growth adaptation
- New biological activity against phospholipase A2 by Turmerin, a protein from Curcuma longa L.
- Regulation of the expression of components of the exocytotic machinery of insulin-secreting cells by microRNAs
- Kinetic properties of cathepsin D and BACE 1 indicate the need to search for additional β-secretase candidate(s)
