Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage

<p>Abstract</p> <p>Background</p> <p>P53 is a key tumor suppressor protein. In response to DNA damage, p53 accumulates to high levels in differentiated cells and activates target genes that initiate cell cycle arrest and apoptosis. Since stem cells provide the prolifera...

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Main Authors: Rolletschek Alexandra, Solozobova Valeriya, Blattner Christine
Format: Article
Language:English
Published: BMC 2009-06-01
Series:BMC Cell Biology
Online Access:http://www.biomedcentral.com/1471-2121/10/46
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spelling doaj-7d369f141a2b464ebdb8ca100bd3210d2020-11-25T01:14:52ZengBMCBMC Cell Biology1471-21212009-06-011014610.1186/1471-2121-10-46Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damageRolletschek AlexandraSolozobova ValeriyaBlattner Christine<p>Abstract</p> <p>Background</p> <p>P53 is a key tumor suppressor protein. In response to DNA damage, p53 accumulates to high levels in differentiated cells and activates target genes that initiate cell cycle arrest and apoptosis. Since stem cells provide the proliferative cell pool within organisms, an efficient DNA damage response is crucial.</p> <p>Results</p> <p>In proliferating embryonic stem cells, p53 is localized predominantly in the cytoplasm. DNA damage-induced nuclear accumulation of p53 in embryonic stem cells activates transcription of the target genes <it>mdm2</it>, <it>p21</it>, <it>puma </it>and <it>noxa</it>. We observed bi-phasic kinetics for nuclear accumulation of p53 after ionizing radiation. During the first wave of nuclear accumulation, p53 levels were increased and the p53 target genes <it>mdm2</it>, <it>p21 </it>and <it>puma </it>were transcribed. Transcription of <it>noxa </it>correlated with the second wave of nuclear accumulation. Transcriptional activation of p53 target genes resulted in an increased amount of proteins with the exception of p21. While p21 transcripts were efficiently translated in 3T3 cells, we failed to see an increase in p21 protein levels after IR in embryonal stem cells.</p> <p>Conclusion</p> <p>In embryonic stem cells where (anti-proliferative) p53 activity is not necessary, or even unfavorable, p53 is retained in the cytoplasm and prevented from activating its target genes. However, if its activity is beneficial or required, p53 is allowed to accumulate in the nucleus and activates its target genes, even in embryonic stem cells.</p> http://www.biomedcentral.com/1471-2121/10/46
collection DOAJ
language English
format Article
sources DOAJ
author Rolletschek Alexandra
Solozobova Valeriya
Blattner Christine
spellingShingle Rolletschek Alexandra
Solozobova Valeriya
Blattner Christine
Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage
BMC Cell Biology
author_facet Rolletschek Alexandra
Solozobova Valeriya
Blattner Christine
author_sort Rolletschek Alexandra
title Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage
title_short Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage
title_full Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage
title_fullStr Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage
title_full_unstemmed Nuclear accumulation and activation of p53 in embryonic stem cells after DNA damage
title_sort nuclear accumulation and activation of p53 in embryonic stem cells after dna damage
publisher BMC
series BMC Cell Biology
issn 1471-2121
publishDate 2009-06-01
description <p>Abstract</p> <p>Background</p> <p>P53 is a key tumor suppressor protein. In response to DNA damage, p53 accumulates to high levels in differentiated cells and activates target genes that initiate cell cycle arrest and apoptosis. Since stem cells provide the proliferative cell pool within organisms, an efficient DNA damage response is crucial.</p> <p>Results</p> <p>In proliferating embryonic stem cells, p53 is localized predominantly in the cytoplasm. DNA damage-induced nuclear accumulation of p53 in embryonic stem cells activates transcription of the target genes <it>mdm2</it>, <it>p21</it>, <it>puma </it>and <it>noxa</it>. We observed bi-phasic kinetics for nuclear accumulation of p53 after ionizing radiation. During the first wave of nuclear accumulation, p53 levels were increased and the p53 target genes <it>mdm2</it>, <it>p21 </it>and <it>puma </it>were transcribed. Transcription of <it>noxa </it>correlated with the second wave of nuclear accumulation. Transcriptional activation of p53 target genes resulted in an increased amount of proteins with the exception of p21. While p21 transcripts were efficiently translated in 3T3 cells, we failed to see an increase in p21 protein levels after IR in embryonal stem cells.</p> <p>Conclusion</p> <p>In embryonic stem cells where (anti-proliferative) p53 activity is not necessary, or even unfavorable, p53 is retained in the cytoplasm and prevented from activating its target genes. However, if its activity is beneficial or required, p53 is allowed to accumulate in the nucleus and activates its target genes, even in embryonic stem cells.</p>
url http://www.biomedcentral.com/1471-2121/10/46
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AT solozobovavaleriya nuclearaccumulationandactivationofp53inembryonicstemcellsafterdnadamage
AT blattnerchristine nuclearaccumulationandactivationofp53inembryonicstemcellsafterdnadamage
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