CtBP2 proteome: Role of CtBP in E2F7-mediated repression and cell proliferation
Ling-Jun Zhao1, T. Subramanian1, S. Vijayalingam1, and G. Chinnadurai1
1 Institute for Molecular Virology, Saint Louis University Health Sciences Center, Doisy Research Center, St. Louis, Missouri
Correspondence:
G. Chinnadurai, email:
Keywords: CtBP2; Proteome; E2F7; E2F1; NuRD
Received: August 23, 2013 Accepted: April 21, 2014 Published: April 21, 2014
Abstract
C-terminal binding protein (CtBP) family transcriptional corepressors include CtBP1 and CtBP2. While CtBP1 and CtBP2 share significant amino acid sequence homology, CtBP2 possesses a unique N-terminal domain that is modified by acetylation and contributes to exclusive nuclear localization. Although CtBP1 and CtBP2 are functionally redundant for certain activities during vertebrate development, they also perform unique functions. Previous studies have identified several CtBP1-interacting proteins that included other transcriptional corepressors, DNA-binding repressors and histone modifying enzymatic components such as the histone deacetylases and the histone demethylase LSD-1. Here, we carried out an unbiased proteomic analysis of CtBP2-associated proteins and discovered the association of several components of the CtBP1 proteome as well as novel interactions. The CtBP2 proteome contained components of the NuRD complex and the E2F family member E2F7. E2F7 interacted with the hydrophobic cleft region of CtBP1 and CtBP2 through a prototypical CtBP binding motif, PIDLS. E2F7 repressed E2F1 transcription, inhibited cell proliferation in a CtBP-dependent fashion. Our study identified CtBP as a corepressor of E2F7 and as a regulator of DNA damage response.