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P53 Suppresses the Self-renewal of Adult Neural Stem Cells

Overview
Journal Development
Specialty Biology
Date 2005 Dec 22
PMID 16368933
Citations 230
Authors
Konstantinos Meletis
Valtteri Wirta
Sanna-Maria Hede
Monica Nister
Joakim Lundeberg
Jonas Frisen
Affiliations
Soon will be listed here.
Abstract

There is increasing evidence that tumors are heterogeneous and that a subset of cells act as cancer stem cells. Several proto-oncogenes and tumor suppressors control key aspects of stem cell function, suggesting that similar mechanisms control normal and cancer stem cell properties. We show here that the prototypical tumor suppressor p53, which plays an important role in brain tumor initiation and growth, is expressed in the neural stem cell lineage in the adult brain. p53 negatively regulates proliferation and survival, and thereby self-renewal, of neural stem cells. Analysis of the neural stem cell transcriptome identified the dysregulation of several cell cycle regulators in the absence of p53, most notably a pronounced downregulation of p21 expression. These data implicate p53 as a suppressor of tissue and cancer stem cell self-renewal.

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