DNA damage-induced cell death: lessons from the central nervous system

DNA damage can, but does not always, induce cell death. While several pathways linking DNA damage signals to mitochondria-dependent and -independent death machineries have been elucidated, the connectivity of these pathways is subject to regulation by multiple other factors that are not well underst...

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Veröffentlicht in:Cell research Jg. 18; H. 1; S. 17 - 26
Hauptverfasser: Borges, Helena Lobo, Linden, Rafael, Wang, Jean YJ
Format: Journal Article
Sprache:Englisch
Veröffentlicht: London Nature Publishing Group UK 01.01.2008
Nature Publishing Group
Schlagworte:
Animals
Apoptosis - genetics
Apoptosis - radiation effects
Biomedical and Life Sciences
Caspases - metabolism
Caspases - physiology
Cell Biology
Cell death
Cell Death - genetics
Cell Death - radiation effects
Central nervous system
Deoxyribonucleic acid
DNA
DNA Damage - physiology
DNA Fragmentation
Enzyme Activation - physiology
Enzyme Activation - radiation effects
Humans
Ionizing radiation
Life Sciences
Models, Biological
Mortality
Radiation Dosage
Radiation Injuries, Experimental - genetics
Radiation, Ionizing
Retina - growth & development
Retina - radiation effects
review
死亡过程
神经系统
脱氧核糖核酸
apoptosis
neonatal retina
ATM
phosphorylation
ionizing radiation
neuroblasts
p53
ISSN:1001-0602, 1748-7838, 1748-7838
Online-Zugang:Volltext
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Beschreibung
Zusammenfassung:DNA damage can, but does not always, induce cell death. While several pathways linking DNA damage signals to mitochondria-dependent and -independent death machineries have been elucidated, the connectivity of these pathways is subject to regulation by multiple other factors that are not well understood. We have proposed two conceptual models to explain the delayed and variable cell death response to DNA damage: integrative surveillance versus autonomous pathways. In this review, we discuss how these two models may explain the in vivo regulation of cell death induced by ionizing radiation (IR) in the developing central nervous system, where the death response is regulated by radiation dose, cell cycle status and neuronal development.
Bibliographie:Q523
apoptosis, ATM, ionizing radiation, neonatal retina, neuroblasts, p53, phosphorylation
31-1568/Q
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ISSN:1001-0602
1748-7838
1748-7838
DOI:10.1038/cr.2007.110