Abstract
HIC1 (hypermethylated in cancer 1) is a tumor suppressor gene epigenetically silenced or deleted in many human cancers. HIC1 is involved in regulatory loops modulating p53- and E2F1-dependent cell survival, growth control, and stress responses. HIC1 is also essential for normal development because Hic1-deficient mice die perinatally and exhibit gross developmental defects throughout the second half of development. HIC1 encodes a transcriptional repressor with five C(2)H(2) zinc fingers mediating sequence-specific DNA binding and two repression domains: an N-terminal BTB/POZ domain and a central region recruiting CtBP and NuRD complexes. By yeast two-hybrid screening, we identified the Polycomb-like protein hPCL3 as a novel co-repressor for HIC1. Using multiple biochemical strategies, we demonstrated that HIC1 interacts with hPCL3 and its paralog PHF1 to form a stable complex with the PRC2 members EZH2, EED, and Suz12. Confirming the implication of HIC1 in Polycomb recruitment, we showed that HIC1 shares some of its target genes with PRC2, including ATOH1. Depletion of HIC1 by siRNA interference leads to a partial displacement of EZH2 from the ATOH1 promoter. Furthermore, in vivo, ATOH1 repression by HIC1 is associated with Polycomb activity during mouse cerebellar development. Thus, our results identify HIC1 as the first transcription factor in mammals able to recruit PRC2 to some target promoters through its interaction with Polycomb-like proteins.
Highlights
HIC1 is a transcriptional repressor recruiting CtBP and NuRD complexes
HIC1 recruits PRC2 independently of the CtBP and NuRD complexes, which interact with the HIC1 central region, and we further demonstrate that this interaction mainly relies on its BTB/POZ domain
We identified human Polycomb-like proteins, hPCL3 and PHF1, as new HIC1 corepressors
Summary
HIC1 is a transcriptional repressor recruiting CtBP and NuRD complexes. Results: HIC1 interacts with human Polycomb-like proteins. Polycomb group (PcG) proteins were first discovered in Drosophila for their role in the regulation of Hox genes during development and are recognized as global epigenetic transcriptional regulators of cell fate decisions in all metazoans They are organized in multiprotein modifying-chromatin complexes of variable composition [2]. EZH2 catalyzes the dimethylation and trimethylation of lysine 27 of histone 3 thereby generating an epigenetic repressive mark bound by the Polycomb (Pc) protein of PRC1 [2, 3] In addition to these core components, PRC2 is associated with co-factors that are essential to modulate its activity and/or its recruitment to specific loci in embryonic stem cells, such as the recently characterized JARID2 protein, which contains an AT-rich DNA-binding domain [4, 5]. PHF1 and hPCL3 are widely expressed in different normal tissues with some examples of co-expression [7, 8]. hPCL3 is
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
