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PMID:11092819

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Citation

D'Sa-Eipper, C, Leonard, JR, Putcha, G, Zheng, TS, Flavell, RA, Rakic, P, Kuida, K and Roth, KA (2001) DNA damage-induced neural precursor cell apoptosis requires p53 and caspase 9 but neither Bax nor caspase 3. Development 128:137-46

Abstract

Programmed cell death (apoptosis) is critical for normal brain morphogenesis and may be triggered by neurotrophic factor deprivation or irreparable DNA damage. Members of the Bcl2 and caspase families regulate neuronal responsiveness to trophic factor withdrawal; however, their involvement in DNA damage-induced neuronal apoptosis is less clear. To define the molecular pathway regulating DNA damage-induced neural precursor cell apoptosis, we have examined the effects of drug and gamma-irradiation-induced DNA damage on telencephalic neural precursor cells derived from wild-type embryos and mice with targeted disruptions of apoptosis-associated genes. We found that DNA damage-induced neural precursor cell apoptosis, both in vitro and in vivo, was critically dependent on p53 and caspase 9, but neither Bax nor caspase 3 expression. Neural precursor cell apoptosis was also unaffected by targeted disruptions of Bclx and Bcl2, and unlike neurotrophic factor-deprivation-induced neuronal apoptosis, was not associated with a detectable loss of cytochrome c from mitochondria. The apoptotic pathway regulating DNA damage-induced neural precursor cell death is different from that required for normal brain morphogenesis, which involves both caspase 9 and caspase 3 but not p53, indicating that additional apoptotic stimuli regulate neural precursor cell numbers during telencephalic development.

Links

PubMed

Keywords

Animals; Apoptosis/genetics; Caspase 3; Caspase 9; Caspases/genetics; Cell Differentiation/genetics; DNA Damage; Gene Expression Regulation, Developmental; Genes, p53; Mice; Mice, Knockout; Nervous System/embryology; Nervous System/pathology; Proto-Oncogene Proteins/genetics; Proto-Oncogene Proteins c-bcl-2; Signal Transduction/genetics; bcl-2-Associated X Protein

Significance

Annotations

Gene product Qualifier GO ID GO term name Evidence Code with/from Aspect Notes Status


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References

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