Background:
The Klf6 gene, belonging to Krüppel-like family of C2H2 zinc finger transcription factors, is
strongly associated with tumor formation through high somatic mutations in carcinomas of the prostate, liver, colon,
stomach, lung, neck, pituitary gland and nervous system. Recently, Klf6 super-enhancer which strongly regulates Klf6 gene
expression has been identified, and the function of Klf6 super-enhancer which regulates cell growth studied.
Objective:
The development of inhibitors targeting BRD4-binding super-enhancers is a potential target therapeutic strategy
for tumor therapy. However, the suppression of Klf6 super-enhancer function by BRD4 inhibitors is not known.
Methods:
CRISPR-Cas9 editing technique was used for Klf6 super-enhancer deletion experiment, and the expression levels
of several genes for cell clones were detected by qRT-PCR analysis and Western blotting. Cell proliferation assay was
applied to evaluate the functional role of Klf6 super-enhancer using several BRD4 inhibitors. And, the interaction of several
BRD4 inhibitors against the target protein was analyzed by molecular docking simulation.
Results:
As a result, JQ-1, a human BRD4 inhibitor, inhibits Klf6 gene expression and its activity in HepG2 cells in a time
and dose-dependent manner while simultaneously inhibiting cell growth. In addition, BETd-246, a human BRD4 inhibitor,
strongly inhibited Klf6 gene expression, significantly inhibited cell growth, and exhibited higher efficacy than JQ-1.
Molecular docking studies revealed that some key residues were critical for ligand-receptor interactions by forming
hydrogen bonds with ligands (JQ-1: ASN140, BETd-246: ASN140, TYR106, LYS65, GLN58, MET105, and MET53.)
Conclusions:
Our findings suggest that KLF6 is regulated by Klf6 super-enhancer and the targeting of Klf6 super-enhancer
by BRD4 inhibitors may be an effective therapeutic strategy for liver cancer therapy.