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Genome Wide Profiling of p53 Response to Differentiation or DNA Damage of Human Embryonic Stem Cells


ABSTRACT: Tumor suppressor p53 promotes differentiation of human embryonic stem cells (hESCs), but an in-depth understanding of mechanism is lacking. Here, we define p53 functions in hESCs by genome wide profiling of p53 chromatin interactions and intersection with gene expression during early differentiation and in response to DNA damage. During differentiation, p53 targets and regulates a unique collection of genes, many of which encode transcription factors and developmental regulators with chromatin structure poised by OCT4 and NANOG and marked by repressive H3K27me3 in pluripotent hESCs. In contrast, genes associated with cell migration and motility are bound by p53 specifically after DNA damage. Surveillance functions of p53 in regulation of cell death and cell cycle genes are conserved during both DNA damage and differentiation. Our findings expand the registry of p53 -regulated genes in hESCs and define specific functions of p53 in opposing pluripotency, which are highly distinct from stress-induced p53 response in stem cells. Identification of p53 binding sites in hESC under three conditions: Pluripotent, DNA damaged, Differentiating

ORGANISM(S): Homo sapiens

SUBMITTER: Kadir Akdemir 

PROVIDER: E-GEOD-39762 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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Publications

Genome-wide profiling reveals stimulus-specific functions of p53 during differentiation and DNA damage of human embryonic stem cells.

Akdemir Kadir C KC   Jain Abhinav K AK   Allton Kendra K   Aronow Bruce B   Xu Xueping X   Cooney Austin J AJ   Li Wei W   Barton Michelle Craig MC  

Nucleic acids research 20130927 1


How tumor suppressor p53 selectively responds to specific signals, especially in normal cells, is poorly understood. We performed genome-wide profiling of p53 chromatin interactions and target gene expression in human embryonic stem cells (hESCs) in response to early differentiation, induced by retinoic acid, versus DNA damage, caused by adriamycin. Most p53-binding sites are unique to each state and define stimulus-specific p53 responses in hESCs. Differentiation-activated p53 targets include m  ...[more]

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