Inactivation of Rb and E2f8 Synergizes To Trigger Stressed DNA Replication during Erythroid Terminal Differentiation

Rb is critical for promoting cell cycle exit in cells undergoing terminal differentiation. Here we show that during erythroid terminal differentiation, Rb plays a previously unappreciated and unorthodox role in promoting DNA replication and cell cycle progression. Specifically, inactivation of Rb in...

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Bibliographic Details
Published in:Molecular and cellular biology 2014-08, Vol.34 (15), p.2833-2847
Main Authors: Ghazaryan, Seda, Sy, Chandler, Hu, Tinghui, An, Xiuli, Mohandas, Narla, Fu, Haiqing, Aladjem, Mirit I., Chang, Victor T., Opavsky, Rene, Wu, Lizhao
Format: Article
Language:English
Subjects:
Animals
Binding Sites - genetics
Cell Cycle - genetics
Cell Cycle Proteins - genetics
Cell Cycle Proteins - metabolism
Cell Differentiation - genetics
DNA Replication - genetics
DNA-Binding Proteins - genetics
DNA-Binding Proteins - metabolism
Erythroid Cells - metabolism
Erythropoiesis - genetics
Gene Expression Profiling - methods
Mice
Mice, Knockout
Promoter Regions, Genetic - genetics
Repressor Proteins - genetics
Repressor Proteins - metabolism
Retinoblastoma - genetics
Retinoblastoma - metabolism
Transcriptional Activation - genetics
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Summary:Rb is critical for promoting cell cycle exit in cells undergoing terminal differentiation. Here we show that during erythroid terminal differentiation, Rb plays a previously unappreciated and unorthodox role in promoting DNA replication and cell cycle progression. Specifically, inactivation of Rb in erythroid cells led to stressed DNA replication, increased DNA damage, and impaired cell cycle progression, culminating in defective terminal differentiation and anemia. Importantly, all of these defects associated with Rb loss were exacerbated by the concomitant inactivation of E2f8. Gene expression profiling and chromatin immunoprecipitation (ChIP) revealed that Rb and E2F8 cosuppressed a large array of E2F target genes that are critical for DNA replication and cell cycle progression. Remarkably, inactivation of E2f2 rescued the erythropoietic defects resulting from Rb and E2f8 deficiencies. Interestingly, real-time quantitative PCR (qPCR) on E2F2 ChIPs indicated that inactivation of Rb and E2f8 synergizes to increase E2F2 binding to its target gene promoters. Taken together, we propose that Rb and E2F8 collaborate to promote DNA replication and erythroid terminal differentiation by preventing E2F2-mediated aberrant transcriptional activation through the ability of Rb to bind and sequester E2F2 and the ability of E2F8 to compete with E2F2 for E2f-binding sites on target gene promoters.
ISSN:1098-5549
0270-7306
1098-5549
DOI:10.1128/MCB.01651-13