Transcription factor LSF-DNMT1 complex dissociation by FQI1 leads to aberrant DNA methylation and gene expression
Date
2016-12-13
Authors
Chin, Hang Gyeong
Ponnaluri, V. K. Chaithanya
Zhang, Guoqiang
Esteve, Pierre-Olivier
Schaus, Scott E.
Hansen, Ulla
Pradhan, Sriharsa
Version
Published version
OA Version
Citation
Hang Gyeong Chin, VK Chaithanya Ponnaluri, Guoqiang Zhang, Pierre-Olivier Esteve, Scott E Schaus, Ulla Hansen, Sriharsa Pradhan. 2016. "Transcription factor LSF-DNMT1 complex dissociation by FQI1 leads to aberrant DNA methylation and gene expression." ONCOTARGET, Volume 7, Issue 50, pp. 83627 - 83640 (14). https://doi.org/10.18632/oncotarget.13271
Abstract
The transcription factor LSF is highly expressed in hepatocellular carcinoma (HCC) and promotes oncogenesis. Factor quinolinone inhibitor 1 (FQI1), inhibits LSF DNA-binding activity and exerts anti-proliferative activity. Here, we show that LSF binds directly to the maintenance DNA (cytosine-5) methyltransferase 1 (DNMT1) and its accessory protein UHRF1 both in vivo and in vitro. Binding of LSF to DNMT1 stimulated DNMT1 activity and FQI1 negated the methyltransferase activation. Addition of FQI1 to the cell culture disrupted LSF bound DNMT1 and UHRF1 complexes, resulting in global aberrant CpG methylation. Differentially methylated regions (DMR) containing at least 3 CpGs, were significantly altered by FQI1 compared to control cells. The DMRs were mostly concentrated in CpG islands, proximal to transcription start sites, and in introns and known genes. These DMRs represented both hypo and hypermethylation, correlating with altered gene expression. FQI1 treatment elicits a cascade of effects promoting altered cell cycle progression. These findings demonstrate a novel mechanism of FQI1 mediated alteration of the epigenome by DNMT1-LSF complex disruption, leading to aberrant DNA methylation and gene expression.
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This article is made available under a Creative Commons Attribution 3.0 License.