Vinciane Vanhorenbeeck scite author profile

The Onecut (OC) transcription factor HNF-6 (OC-1) is required during embryogenesis for pancreatic specification, morphogenesis and endocrine differentiation. In mammals, HNF-6 has two paralogs, OC-2 and OC-3, which share DNA-binding and transcriptional activation properties and have expression patterns that overlap with that of HNF-6. This suggested that OC-2 and OC-3 play redundant roles with HNF-6 in pancreas development. Here, we have addressed this hypothesis by analyzing the phenotype of mice knockout for the Onecut factors. We found that neither OC-2 nor OC-3 is required for pancreas specification. However, OC-2 plays partially redundant roles with HNF-6 in pancreas morphogenesis and in the differentiation of endocrine precursors. As similar molecular events drive endocrine differentiation in the pancreas and gastrointestinal tract, we also investigated if Onecut factors are involved in enteroendocrine differentiation. OC-2 and OC-3 were found to delineate specific antero-posterior regions of the gut around embryonic day 12.5. Later on, OC2 was expressed in several gut cell types, whereas OC-3 behaved as a specific marker of the enteroendocrine lineage. However, OC-2 and OC-3, alone or in combination, were dispensable for gut development and enteroendocrine differentiation. In conclusion, our data reveal partially redundant roles for HNF-6 and OC-2 in developing pancreas and identify new markers for antero-posterior patterning of the gut and for enteroendocrine differentiation.

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OC-3, a Novel Mammalian Member of the ONECUT Class of Transcription Factors

Vanhorenbeeck

Jacquemin

Lemaigre

et al. 2002

Biochemical and Biophysical Research Communications

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The Transcription Factor Hepatocyte Nuclear Factor-6/Onecut-1 Controls the Expression of Its Paralog Onecut-3 in Developing Mouse Endoderm

Pierreux

Vanhorenbeeck²,

Jacquemin³

et al. 2004

Journal of Biological Chemistry

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During development, the endoderm gives rise to several organs, including the pancreas and liver. This differentiation process requires spatial and temporal regulation of gene expression in the endoderm by a network of tissue-specific transcription factors whose elucidation is far from complete. These factors include the Onecut protein hepatocyte nuclear factor-6 (HNF-6), which controls pancreas and liver development as shown in our previous work on Hnf6 knock-out embryos. In mammals, HNF-6 has two paralogs, Onecut-2 (OC-2) and OC-3, whose patterns of expression in the adult overlap with that of HNF-6. In the present work, we examine the expression profile of the three Onecut factors in the developing mouse endoderm. We show that HNF-6, OC-2, and OC-3 are expressed sequentially, which defines new steps in endoderm differentiation. By analyzing Hnf6 knock-out embryos we find that HNF-6 is required for expression of the Oc3 gene in the endoderm. We show that OC-3 colocalizes with HNF-6 in the endoderm and in embryonic pancreas and liver. Based on transfection, chromatin immunoprecipitation, and whole embryo electroporation experiments, we demonstrate that HNF-6 can bind to and stimulate the expression of the Oc3 gene. This study identifies a regulatory cascade between two paralogous transcription factors, sheds new light on the interpretation of the Hnf6 knock-out phenotype, and broadens the transcription factors network operating during development of the endoderm, liver, and pancreas.

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