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Programmed Cell Death, Volume I, Vol 5. Advances in Cell Aging and Gerontology

  • ID: 1770031
  • Book
  • April 2001
  • Region: Global
  • 368 Pages
  • Elsevier Science and Technology
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Apoptosis, or programmed cell death, is an adaptive form of cell death that plays a critical role in turnover of mitotic cells and various tissues in the adult, including epithelial cells, fibroblasts and various endocrine cells. Programmed cell death also plays a major role in development in organizing the body plan and molding intricate cellular structures such as nerve cell circuits in the brain. Rapidly progressing research into the molecular and biochemical underpinnings of the programmed cell death process are revealing novel genetic programs and molecular interactions that coordinate a process that results in death and removal of cells without an immune response and in the absence of the adverse effects on neighboring cells.

Programmed Cell Death, Volume I, critically details the molecular, biochemical and cellular mechanisms of apoptosis. This volume covers programmed cell death in a variety of tissues and organ systems highlighting the interesting families of proteins involved in promoting or preventing apoptosis. These include the caspase and calpain families of proteases, Bcl-2 family members, and inhibitors of apoptosis proteins. Each chapter is written by an internationally recognized expert in a particular aspect of programmed cell death.

This book will provide the reader with a comprehensive understanding of the cascade of events leading from an apoptotic signal, such as trophic factor withdrawal or increased oxidative stress, to cell death. Importantly, this volume also covers signaling mechanisms designed to prevent apoptosis. Such anti-apoptotic signaling cascades involve neurotrophic factors and stress response pathways. Programmed Cell Death, Volume I, provides the molecular and cellular foundation for [external URL] Cell Death, Volume II in which the roles of aberrant regulation of apoptosis in human diseases ranging from cancer to Alzheimer's disease are considered.

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Mechanisms Underlying the Hallmark Features of the
Execution-phase of Apoptosis
(J. Mills).

Death Domain Signaling and Its Role in the Central Nervous System
(A.J. Bruce-Keller).

Diversity of Caspase Involvement in Neuronal Cell Death
(C.M. Troy).

Mitochondrial Control of Apoptosis
(B. Mignotte, J.-L. Vayssiere).

Proliferative Mitochondrial Dysfunction and Apoptosis
(M. Mancini, S. Camilleri-Broet,
B.O. Anderson, D.M. Hockenbery).

The Bcl-2 Family of Proteins and their Actions within
The Molecular Machinery of Cell Death
(Qing Guo, Sic L. Chan, I. Kruman).

The Role of Jun-Kinases in Apoptosis
(S.P. Tammariello, G.E. Landreth, S. Estus).

Apoptosis by Par-4 Protein
(V.M. Rangnekar).

Cytoskeletal Involvement in Apoptosis
(R.K. Srivastava, D.L. Longo).

Anti-apoptotic Role of the Transcription Factor NF-kB
(M.P. Mattson).

Inhibitor of Apoptosis Proteins (IAPS)
(Q.L. Deveraux, J.C. Reed).

Excitotoxins, Nitric Oxide and Programmed Neuronal Death
(M. Leist, P. Nicotera).

Contributor Addresses.
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Estus, S.
Rangnekar, V.
Mattson, M.P.
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