FOXA2 regulates a network of genes involved in critical functions of human intestinal epithelial cells

Nehal Gosalia, Rui Yang, Jenny L. Kerschner, Ann Harris*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

24 Scopus citations


The forkhead box A (FOXA) family of pioneer transcription factors is critical for the development of many endoderm-derived tissues. Their importance in regulating biological processes in the lung and liver is extensively characterized, though much less is known about their role in intestine. Here we investigate the contribution of FOXA2 to coordinating intestinal epithelial cell function using postconfluent Caco2 cells, differentiated into an enterocyte-like model. FOXA2 binding sites genome-wide were determined by ChIP-seq and direct targets of the factor were validated by ChIP-qPCR and siRNAmediated depletion of FOXA1/2 followed by RT-qPCR. Peaks of FOXA2 occupancy were frequent at loci contributing to gene ontology pathways of regulation of cell migration, cell motion, and plasma membrane function. Depletion of both FOXA1 and FOXA2 led to a significant reduction in the expression of multiple transmembrane proteins including ion channels and transporters, which form a network that is essential for maintaining normal ion and solute transport. One of the targets was the adenosine A2B receptor, and reduced receptor mRNA levels were associated with a functional decrease in intracellular cyclic AMP. We also observed that 30% of FOXA2 binding sites contained a GATA motif and that FOXA1/A2 depletion reduced GATA-4, but not GATA-6 protein levels. These data show that FOXA2 plays a pivotal role in regulating intestinal epithelial cell function. Moreover, that the FOXA and GATA families of transcription factors may work cooperatively to regulate gene expression genome-wide in the intestinal epithelium.

Original languageEnglish (US)
Pages (from-to)290-297
Number of pages8
JournalPhysiological genomics
Issue number7
StatePublished - Jul 1 2015


  • Enterocyte function
  • FOXA2
  • GATA-4
  • Ion and solute transport

ASJC Scopus subject areas

  • Genetics
  • Physiology


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