Mechanistic insights into CAR-mediated repression of the HNF4α-FABP1 axis and inhibition of HepG2 cell proliferation.

The constitutive androstane receptor (CAR) modulates the transcription of numerous genes involving drug metabolism, energy homeostasis, and cell proliferation. While rodent studies suggest an oncogenic role for murine CAR in liver cancer development, emerging evidence indicates that human CAR (hCAR) may exhibit a tumor-suppressive role in hepatocellular carcinoma; notably, overexpressing hCAR suppresses human hepatoma cell proliferation. Yet, the molecular mechanisms whereby hCAR suppresses hepatoma cell proliferation are poorly understood. Our recent RNA-seq analysis of human hepatoma cells revealed that fatty acid binding protein 1 (FABP1), a pleiotropic modulator of lipid metabolism and cancer progression, was a top gene downregulated by hCAR. Here, we report a molecular mechanism whereby hCAR downregulates FABP1 expression by modulating HNF4α signaling. Knocking down hCAR expression in a HepG2-hCAR stable cell line restores the suppressed expression of FABP1 and HNF4α, while knocking down HNF4α alone is sufficient to suppress FABP1 expression. Luciferase reporter assays revealed concentration-dependent hCAR suppression of HNF4α-mediated FABP1 transactivation. This inhibitory crosstalk between hCAR and HNF4α was further confirmed by chromatin immunoprecipitation assays, where hCAR decreased HNF4α occupancy of the FABP1 promoter. Mechanistically, hCAR inhibits HNF4α expression by prompting deacetylation of histone H3 in the HNF4α P1 enhancer region, resulting in a repressive chromatin configuration and reduced HNF4α transcription. Furthermore, overexpressing FABP1 partially rescued hCAR-suppressed cell growth. Collectively, these results uncover the hCAR-HNF4α-FABP1 axis as a novel mechanism underlying hCAR-mediated gene repression.