Life-Span Extension

1. Front Matter

   Pages i-xvii

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2. Yeast

   1. Front Matter

      Pages 1-1

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   2. Reprogramming Cell Survival and Longevity: The Role of Tor, Sch9, Ras, and Sir2

      • Valter D. Longo

      Pages 3-18

3. Caenorhabditis elegans

   1. Front Matter

      Pages 20-20

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   2. 2 Common Aging Mechanisms: Energy Metabolism and Longevity in Caenorhabditis elegans

      • Marta Artal-Sanz, Nektarios Tavernarakis

      Pages 21-32

   3. 3 Conserved Mechanisms of Life-Span Regulation and Extension in Caenorhabditis elegans

      • Sean P. Curran

      Pages 33-56

4. Drosophila melanogaster

   1. Front Matter

      Pages 58-58

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   2. The Genetic Architecture of Longevity

      • Robert Arking

      Pages 59-73

   3. Mild Stress and Life Extension in Drosophila melanogaster

      • Éric Le Bourg

      Pages 75-88

5. Rodents

   1. Front Matter

      Pages 90-90

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   2. Global Food Restriction

      • Michelle E. Matzko, Roger J. McCarter, Edward J. Masoro

      Pages 91-114

   3. Growth Hormone and Aging in Mice

      • Holly M. Brown-Borg, Sunita Sharma, Kurt E. Borg, Sharlene G. Rakoczy

      Pages 115-130

6. Comparative Biology of Aging

   1. Front Matter

      Pages 132-132

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   2. Exploiting Natural Variation in Life Span to Evaluate Mechanisms of Aging

      • Rochelle Buffenstein

      Pages 133-139

   3. Slow Aging: Insights from an Exceptionally Long-Lived Rodent, the Naked Mole-Rat

      • Rochelle Buffenstein, Yael H. Edrey

      Pages 141-156

   4. Life Extension in the Short-Lived Fish Nothobranchius furzeri

      • Alessandro Cellerino

      Pages 157-171

7. Aging in Humans

   1. Front Matter

      Pages 174-174

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   2. Aging and Longevity in Animal Models and Humans

      • Miriam Capri, Stefano Salvioli, Elisa Cevenini, Laura Celani, Federica Sevini, Elena Bellavista et al.

      Pages 175-191

8. Back Matter

   Pages 193-198

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In recent years, remarkable discoveries have been made concerning the underlying mechanisms of aging. In Life-Span Extension: Single-Cell Organisms to Man, the editors bring together a range of illuminating perspectives from researchers investigating the aging process in a variety of species. This novel work addresses the aging process in species ranging from yeast to man and, among other subjects, features detailed discussions of the naked mole-rat, an exceptionally long-lived rodent; the relationship between dietary factors/food restriction and aging; and an evolutionary view of the human aging process.

Single mutations that extend life span have been identified in yeast, worms, flies, and mice, whereas studies in humans have identified potentially important markers for successful aging. At the same time, it has been discovered that the genes and pathways identified in these studies involve a surprisingly small set of conserved functions, most of which have been the focus of aging research for some time. For example, the mTOR pathway, a regulator of translation and protein synthesis, has been identified as a common longevity pathway in yeast and Caenorhabditis elegans. In mammals, this pathway intersects with neuroendocrine pathways and with the insulin/insulin-like growth factor pathways, which have been identified as major modulators of life span and aging in both invertebrates and mice.

Novel, emerging technologies and the increasingly wide variety of systems that are now used to study aging and the mechanisms of aging provide enormous opportunities for the identification of common pathways that modulate longevity. It is these common pathways that are the focus of this important volume.

 

• Caenorhabditis elegans
• Life span
• Life-span extension
• Longevity
• Mammals
• Markers
• Neuroendocrine pathways
• Single mutations
• Species
• Stress response
• Yeast
• aging
• insulin/insulin-like growth factor (IGF) pathways
• mTOR pathway

From the reviews: “This multiauthored book reviews the mechanisms of life-span extension across the animal kingdom, including man. … The audience here is researchers into the nature of aging and longevity. Many scientists looking at redox reactions in the body find themselves ultimately researching the nature of aging. For them, this is a useful guide. … This compact, well-edited book is a timely review of a complex subject.” (David O. Staats, Doody’s Review Service, April, 2010)

• College of Medicine, Drexel University, Philadelphia, U.S.A.

  Christian Sell, Antonello Lorenzini

• School of Medicine & Health Sciences, University of North Dakota, Grand Forks, U.S.A.

  Holly M. Brown-Borg

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