Anja Lingott scite author profile

The transcription factor hepatocyte nuclear factor 4alpha (HNF4alpha) is a tissue specific transcription factor mainly expressed in the liver, kidney, intestine and the endocrine pancreas, but is also an essential regulator for early embryonic events. Based on its protein structure HNF4alpha is classified as an orphan member of the nuclear receptor superfamily. Comparing HNF4alpha transcription factors in the differentiated and dedifferentiated murine hepatocyte cell line MHSV-12 we identified in dedifferentiated cells the novel splice variant HNF4alpha7. This variant is characterized by an alternative first exon and has a lower transactivation potential in transient transfection assays using HNF4 dependent reporter genes. HNF4alpha7 mRNA and the corresponding protein are expressed in the undifferentiated pluripotent embryonal carcinoma cell line F9, whereas HNF4alpha1 only appears after differentiation of F9 cells to visceral endoderm. HNF4alpha7 mRNA is also found in totipotent embryonic stem cells. However, the function of HNF4alpha7 seems not to be restricted to embryonic cells as the HNF4alpha7 mRNA is also present in adult tissues, most notably the stomach. All these features suggest that the presence of distinct splice variants of HNF4alpha modulates the activity of HNF4alphain a cell type specific way.

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Distinct promoter elements mediate endodermal and mesodermal expression of the HNF1α promoter in transgenic Xenopus

Ryffel¹,

Lingott²

2000

Mechanisms of Development

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The gene encoding the tissue specific transcription factor HNF1alpha is expressed in vertebrates in tissues of endodermal origin such as the liver and the gut as well as in the kidney, a mesoderm derived organ. Using a 6 kb HNF1alpha promoter fragment linked to GFP we observed green fluorescence in transgenic embryos restricted to the liver and gut as well as to the pronephros, the embryonic kidney. By deletion and mutation analysis of the HNF1alpha promoter we succeeded in dissecting the HNF1alpha promoter into two entities that are either active in the endoderm or the mesoderm. In conclusion, our data establish that the generation of transgenic Xenopus allows the functional dissection of promoters in the context of the entire organism.

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Loss of HNF1? function in human renal cell carcinoma: Frequent mutations in theVHL gene but not theHNF1? gene

et al. 1999

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Human renal cell carcinoma (RCC) is a common malignant disease of the kidney characterized by dedifferentiation of renal epithelial cells. Our previous experiments showed that most RCCs have a loss of function of the tissue-specific transcription factor hepatocyte nuclear factor (HNF) 1alpha. Detailed analyses of the 10 exons encoding HNF1alpha in 32 human RCCs by single-strand conformation polymorphism analysis and direct DNA sequencing revealed no tumor-associated mutation, whereas with the same probes we frequently found mutations in the von Hippel-Lindau tumor suppressor gene. No mutation leading to loss of HNF1alpha function was detected by analyzing the integrity of the HNF1alpha transcripts in the RNA derived from RCCs by the protein truncation test. Investigating human RCC cell lines by western blotting and gel retardation assays showed a dramatic loss in the expression of the tissue-specific transcription factor HNF1alpha in eight of 10 cell lines. As the HNF1alpha-related transcription factor HNF1beta was expressed in all these tumor cell lines, the loss of HNF1alpha expression was a specific event and was maintained in RCC cell lines. The loss of HNF1alpha expression in RCC cell lines on the RNA level was confirmed by reverse transcription polymerase chain reaction. We propose that tumor-associated mutations in the HNF1alpha gene do not occur in human RCC and that the loss of function is partially due to a transcriptional inactivation of the HNF1alpha gene.

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Anja Lingott

An alternative splice variant of the tissue specific transcription factor HNF4 predominates in undifferentiated murine cell types

Distinct promoter elements mediate endodermal and mesodermal expression of the HNF1α promoter in transgenic Xenopus

Loss of HNF1? function in human renal cell carcinoma: Frequent mutations in theVHL gene but not theHNF1? gene

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