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Positive feedback loop between Sox2 and Sox6 inhibits neuronal differentiation in the developing central nervous system.

ABSTRACT: How a pool of undifferentiated neural progenitor cells is maintained in the developing nervous system is an issue that remains unresolved. One of the key transcription factors for self-renewal of these cells is Sox2, the forced expression of which has been shown to inhibit neuronal differentiation in vivo. To dissect the molecular mechanisms of Sox2 activity, a ChIP-on-chip assay has been carried out for Sox2, and multiple candidate direct target genes have been isolated. In this report, we provide evidence indicating that Sox6, which like Sox2 belongs to the SRY-related HMG box transcription factor family, is a bona-fide direct regulatory target of Sox2. In vivo, Sox6 expression is seen with a temporal lag in Sox2-positive neural precursor cells in the ventricular zone, and Sox2 promotes expression of Sox6 as a transcriptional activator. Interestingly, gain- and loss-of-function assays indicate that Sox6 in turn is required for the maintenance of Sox2 expression, suggesting that a positive feedback loop, which functions to inhibit premature neuronal differentiation, exists between the two transcription factors.

SUBMITTER: Lee KE 

PROVIDER: S-EPMC3932859 | biostudies-literature | 2014 Feb

REPOSITORIES: biostudies-literature

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Positive feedback loop between Sox2 and Sox6 inhibits neuronal differentiation in the developing central nervous system.

Lee Kyung Eun KE   Seo Jihae J   Shin Jiheon J   Ji Eun Hye EH   Roh Jiwon J   Kim Joo Yeon JY   Sun Woong W   Muhr Jonas J   Lee Sanghyuk S   Kim Jaesang J  

Proceedings of the National Academy of Sciences of the United States of America 20140205 7

How a pool of undifferentiated neural progenitor cells is maintained in the developing nervous system is an issue that remains unresolved. One of the key transcription factors for self-renewal of these cells is Sox2, the forced expression of which has been shown to inhibit neuronal differentiation in vivo. To dissect the molecular mechanisms of Sox2 activity, a ChIP-on-chip assay has been carried out for Sox2, and multiple candidate direct target genes have been isolated. In this report, we prov  ...[more]

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