251. HOXC9 directly regulates distinct sets of genes to coordinate diverse cellular processes during neuronal differentiation.
- Author
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Xiangwei Wang, Jeong-Hyeon Choi, Jane Ding, Liqun Yang, Ngoka, Lambert C., Lee, Eun J., Yunhong Zha, Ling Mao, Bilian Jin, Mingqiang Ren, Cowell, John, Shuang Huang, Huidong Shi, Hongjuan Cui, and Han-Fei Ding
- Subjects
HUMAN cell cycle ,DNA damage ,GENE regulatory networks ,HOMEOBOX genes ,NEUROBLASTOMA - Abstract
Background Cellular differentiation is characterized by the acquisition of specialized structures and functions, cell cycle exit, and global attenuation of the DNA damage response. It is largely unknown how these diverse cellular events are coordinated at the molecular level during differentiation. We addressed this question in a model system of neuroblastoma cell differentiation induced by HOXC9. Results We conducted a genome-wide analysis of the HOXC9-induced neuronal differentiation program. Microarray gene expression profiling revealed that HOXC9-induced differentiation was associated with transcriptional regulation of 2,370 genes, characterized by global upregulation of neuronal genes and downregulation of cell cycle and DNA repair genes. Remarkably, genome-wide mapping by ChIP-seq demonstrated that HOXC9 bound to 40% of these genes, including a large number of genes involved in neuronal differentiation, cell cycle progression and the DNA damage response. Moreover, we showed that HOXC9 interacted with the transcriptional repressor E2F6 and recruited it to the promoters of cell cycle genes for repressing their expression. Conclusions Our results demonstrate that HOXC9 coordinates diverse cellular processes associated with differentiation by directly activating and repressing the transcription of distinct sets of genes. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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