A Subtractive Gene Expression Screen Suggests a Role of Transcription Factor AP-2α in Control of Proliferation and Differentiation

The transcription factor AP-2α has been implicated as a cell type-specific regulator of gene expression during vertebrate embryogenesis based on its expression pattern in neural crest cells, ectoderm, and the nervous system in mouse and frog embryos. AP-2α is prominently expressed in cranial neural...

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Veröffentlicht in:	The Journal of biological chemistry 2002-02, Vol.277 (8), p.6637-6644
Hauptverfasser:	Pfisterer, Petra, Ehlermann, Julia, Hegen, Martin, Schorle, Hubert
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cell Differentiation - physiology Cell Division - physiology Cloning, Molecular DNA, Complementary - genetics DNA-Binding Proteins - metabolism Fibroblasts - cytology Gene Expression Regulation, Developmental Gene Library KLF-4 protein Mice Nervous System - embryology Polymerase Chain Reaction Proteins - genetics Ranidae Repressor Proteins - metabolism Transcription Factor AP-2 Transcription Factors - metabolism Transcription, Genetic
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creator	Pfisterer, Petra Ehlermann, Julia Hegen, Martin Schorle, Hubert
description	The transcription factor AP-2α has been implicated as a cell type-specific regulator of gene expression during vertebrate embryogenesis based on its expression pattern in neural crest cells, ectoderm, and the nervous system in mouse and frog embryos. AP-2α is prominently expressed in cranial neural crest cells, a population of cells that migrate from the lateral margins of the brain plate during closure of the neural tube at day 8–9 of embryonic development. Homozygous AP-2α mutant mice die perinatally with cranio-abdominoschisis, full facial clefting, and defects in cranial ganglia and sensory organs, indicating the importance of this gene for proper development. By using a subtractive cloning approach, we identified a set of genes repressed by AP-2α that are described to retard cellular proliferation and induce differentiation and apoptosis. We show that these target genes are prematurely expressed in AP-2α mutant mice. One of the genes isolated, the Krüppel-box transcription factor KLF-4implicated in induction of terminal differentiation and growth regulation, is found expressed in mutant embryonic fibroblasts. We show that fibroblasts lacking AP-2α display retarded growth but no enhanced apoptosis. Based on these data we suggest thatAP-2α might be required for cell proliferation by suppression of genes inducing terminal differentiation, apoptosis, and growth retardation.
doi_str_mv	10.1074/jbc.M108578200
format	Article
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AP-2α is prominently expressed in cranial neural crest cells, a population of cells that migrate from the lateral margins of the brain plate during closure of the neural tube at day 8–9 of embryonic development. Homozygous AP-2α mutant mice die perinatally with cranio-abdominoschisis, full facial clefting, and defects in cranial ganglia and sensory organs, indicating the importance of this gene for proper development. By using a subtractive cloning approach, we identified a set of genes repressed by AP-2α that are described to retard cellular proliferation and induce differentiation and apoptosis. We show that these target genes are prematurely expressed in AP-2α mutant mice. One of the genes isolated, the Krüppel-box transcription factor KLF-4implicated in induction of terminal differentiation and growth regulation, is found expressed in mutant embryonic fibroblasts. We show that fibroblasts lacking AP-2α display retarded growth but no enhanced apoptosis. 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AP-2α is prominently expressed in cranial neural crest cells, a population of cells that migrate from the lateral margins of the brain plate during closure of the neural tube at day 8–9 of embryonic development. Homozygous AP-2α mutant mice die perinatally with cranio-abdominoschisis, full facial clefting, and defects in cranial ganglia and sensory organs, indicating the importance of this gene for proper development. By using a subtractive cloning approach, we identified a set of genes repressed by AP-2α that are described to retard cellular proliferation and induce differentiation and apoptosis. We show that these target genes are prematurely expressed in AP-2α mutant mice. One of the genes isolated, the Krüppel-box transcription factor KLF-4implicated in induction of terminal differentiation and growth regulation, is found expressed in mutant embryonic fibroblasts. We show that fibroblasts lacking AP-2α display retarded growth but no enhanced apoptosis. 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subjects	Animals Cell Differentiation - physiology Cell Division - physiology Cloning, Molecular DNA, Complementary - genetics DNA-Binding Proteins - metabolism Fibroblasts - cytology Gene Expression Regulation, Developmental Gene Library KLF-4 protein Mice Nervous System - embryology Polymerase Chain Reaction Proteins - genetics Ranidae Repressor Proteins - metabolism Transcription Factor AP-2 Transcription Factors - metabolism Transcription, Genetic
title	A Subtractive Gene Expression Screen Suggests a Role of Transcription Factor AP-2α in Control of Proliferation and Differentiation
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