Loss of the Pioneer Factor FOXA1 Results in Genome-wide Epigenetic Reprogramming and activation of Interferon-Response Genes including CD274/PD-L1

Forkhead Box A1 (FOXA1) is a pioneer transcription factor critical in epigenetic regulation of chromatin and cell fate determination. Reduced FOXA1 expression is an independent predictor of poor overall survival in bladder cancer patients. However, the impact of FOXA1 loss on chromatin epigenetics in bladder cancer is unknown. Therefore, we determined the impact of FOXA1 knock out (KO) on epigenetic modification of chromatin and associated gene expression. We identified 8,230 differentially expressed genes following FOXA1 KO. Surprisingly, Gene Set Enrichment Analysis (GSEA) identified IFN[a]/{gamma} gene expression signatures as enriched following FOXA1 KO. FOXA1 KO induced both increased and decreased numbers of histone 3 lysine 27 acetylation (H3K27ac) sites throughout the genome. As expected, the majority of differences in H3K27ac across genomic areas in FOXA1 KO cells is mapped to intergenic and intronic regions where enhancers reside. In addition, a subset of differential H3K27ac levels were also mapped to proximal promoters and within gene bodies. Integrated analysis of RNA/ChIP-seq data shows changes in gene expression that are mirrored by differences in H3K27ac. Motif analysis of DNA sequence enriched for H3K27ac identified significant increases in transcription factor binding motifs including the interferon sensitive response element (ISRE) and interferon response factors such as IRF1. Moreover, we identified increased H3K27ac of regulatory elements as being associated with several upregulated interferon sensitive genes (ISGs) in FOXA1 KO cells, including CD274/PD-L1. Western blotting and Q-RT-PCR confirmed upregulation of CD274/PD-L1 following FOXA1 KO. Analysis of TCGA data confirmed an inverse relationship between FOXA1 and CD274 in bladder cancer, as well as in other cancers. In summary, we provide evidence of widespread epigenetic reprogramming after FOXA1 KO in bladder cancer cells. Additionally, we provide evidence that FOXA1 KO-induced epigenetic changes contribute to activation of a global interferon-dominant expression signature, including the immune checkpoint target CD274/PD-L1 in a cancer cell-intrinsic manner.