The hepatocyte nuclear factor 3␣ (HNF-3␣) and 3 proteins have homology in the winged helix/fork head DNA binding domain and regulate cell-specific transcription in hepatocytes and in respiratory and intestinal epithelia. In this study, we describe two novel isoforms of the winged helix transcription factor family, HNF-3/fork head homolog 11A (HFH-11A) and HFH-11B, isolated from the human colon carcinoma HT-29 cell line. We show that these isoforms arise via differential splicing and are expressed in a number of epithelial cell lines derived from tumors (HT-29, Caco-2, HepG2, HeLa, A549, and H441). We demonstrate that differentiation of Caco-2 cells toward the enterocyte lineage results in decreased HFH-11 expression and reciprocal increases in HNF-3␣ and HNF-3 mRNA levels. In situ hybridization of 16 day postcoitus mouse embryos demonstrates that HFH-11 expression is found in the mesenchymal and epithelial cells of the liver, lung, intestine, renal cortex, and urinary tract. Although HFH-11 exhibits a wide cellular expression pattern in the embryo, its adult expression pattern is restricted to epithelial cells of Lieberkühn's crypts of the intestine, the spermatocytes and spermatids of the testis, and the thymus and colon. HFH-11 expression is absent in adult hepatocytes, but its expression is reactivated in proliferating hepatocytes at 4, 24, and 48 h after partial hepatectomy. Consistent with these findings, we demonstrate that HFH-11 mRNA levels are stimulated by intratracheal administration of keratinocyte growth factor in adult lung and its expression in an adult endothelial cell line is reactivated in response to oxidative stress. These experiments show that the HFH-11 transcription factor is expressed in embryonic mesenchymal and epithelial cells and its expression is reactivated in these adult cell types by proliferative signals or oxidative stress.Cell-specific transcription relies on the combinatorial recognition of multiple cis-acting elements by families of cell-restricted transcription factors (80). One of these regulatory families is represented by the hepatocyte nuclear factor 3␣ (HNF-3␣), HNF-3, and HNF-3␥ proteins (43), which have homology in the winged helix DNA binding domain (12) and function in combination with other liver-enriched transcription factors to mediate hepatocyte-enriched transcription (17). The HNF-3␣ and -3 proteins also activate the transcription of genes important for respiratory epithelial cell function (7,14,35,40,60,82). The HNF-3 proteins thus appear to play an important transcriptional regulatory role in epithelial cell typespecific gene expression in adult tissues derived from gut endoderm.In the adult intestine, multipotent proliferative stem cells in Lieberkühn's crypts in the mouse intestine give rise to four terminally differentiated cell types: digestive and absorptive columnar enterocytes (representing the most abundant cell type), mucus-producing goblet cells, enteroendocrine cells, and Paneth cells (53). As the postmitotic enterocytes, goblet cells, and ente...
