Abstract
E2F1 is tightly controlled by multiple mechanisms, but whether ubiquitination regulates its transcriptional activity remains unknown. Here we identify UCH37 as the first, to our knowledge, deubiquitinating enzyme for E2F1. UCH37 does not deubiquitinate UbK48 chains or affect E2F1 protein stability. Instead, UCH37, but not a catalytically dead mutant, decreases the Lys-63-linked ubiquitination of E2F1 and activates its transcriptional activity. UCH37 depletion reduces the gene expression of both proliferative and pro-apoptotic E2F1 target genes. UCH37 depletion also decreases both cell proliferation and apoptosis induction in functional assays. Interestingly, UCH37 expression is induced by E2F1, and its level rises in G1/S transition and S phase, suggesting a positive feedback loop between UCH37 and E2F1. UCH37 protein and mRNA levels are also induced after DNA damage. UCH37 localizes to the promoters of E2F1 pro-apoptotic target genes such as caspase 3, caspase 7, PARP1, and Apaf-1 and activates their expression after DNA damage. Moreover, the expression of E2F1 proliferative and pro-apoptotic genes is correlated with the levels of UCH37 in many primary tumors. These results uncover a novel mechanism for E2F1 transcriptional activation through removal of its Lys-63-linked ubiquitination by UCH37.
Highlights
Posttranslational modifications of E2F1 alter its transcriptional activity
UCH37, a Deubiquitinating Enzyme, Interacts with E2F1, and That Interaction Is Enhanced upon DNA Damage—An immunoprecipitation/MS assay of FLAG-E2F1 in HEK293T cells revealed UCH37, a deubiquitinating enzyme, as a putative E2F1-interacting protein
We mapped the domains of E2F1 that directly interact with UCH37
Summary
Results: UCH37 binds E2F1 and deubiquitinates its UbK63-specific linkages to enhance the transcriptional activation of E2F1 target genes, upon DNA damage. The expression of E2F1 proliferative and pro-apoptotic genes is correlated with the levels of UCH37 in many primary tumors These results uncover a novel mechanism for E2F1 transcriptional activation through removal of its Lys-63-linked ubiquitination by UCH37. Nuclear UCH37 can associate with the Ino chromatin-remodeling complex (6), implying a role for UCH37 in the regulation of either DNA repair or transcription For the former, UCH37 has been shown to protect nuclear factor related to B-binding protein (a subunit of the Ino complex) from degradation and promote doublestranded break resection and repair by homologous recombination (7). We identify the first deubiquitinating enzyme for E2F1 and demonstrate its role in activating the transcriptional function of E2F1
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