Transcriptional control of terminal nephron differentiation

Section of Pediatric Nephrology, Department of Pediatrics, Tulane University Health Sciences Center, New Orleans, Louisiana Submitted 26 November 2007 ; accepted in final form 19 February 2008 Terminal differentiation of epithelial cells into more specialized cell types is a critical step in organog...

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Veröffentlicht in:	American journal of physiology. Renal physiology 2008-06, Vol.294 (6), p.F1273-F1278
Hauptverfasser:	El-Dahr, Samir S, Aboudehen, Karam, Saifudeen, Zubaida
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cell Differentiation - genetics Cells Embryos Gene expression Gene Expression Regulation, Developmental - physiology Genes Humans Kidneys Nephrology Nephrons - embryology Nephrons - physiology Transcription, Genetic - physiology
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container_title	American journal of physiology. Renal physiology
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creator	El-Dahr, Samir S Aboudehen, Karam Saifudeen, Zubaida
description	Section of Pediatric Nephrology, Department of Pediatrics, Tulane University Health Sciences Center, New Orleans, Louisiana Submitted 26 November 2007 ; accepted in final form 19 February 2008 Terminal differentiation of epithelial cells into more specialized cell types is a critical step in organogenesis. Throughout the process of terminal differentiation, epithelial progenitors acquire or upregulate expression of renal function genes and cease to proliferate, while expression of embryonic genes is repressed. This exquisite coordination of gene expression is accomplished by signaling networks and transcription factors which couple the external environment with the new functional demands of the cell. While there has been much progress in understanding the early steps involved in renal epithelial cell differentiation, a major gap remains in our knowledge of the factors that control the steps of terminal differentiation. A number of signaling molecules and transcription factors have been recently implicated in determining segmental nephron identity and functional differentiation. While some of these factors (the p53 gene family, hepatocyte nuclear factor-1β) promote the terminal epithelial differentiation fate, others (Notch, Brn-1, IRX, KLF4, and Foxi1) tend to regulate differentiation of specific nephron segments and individual cell types. This review summarizes current knowledge related to these transcription factors and discusses how diverse cellular signals are integrated to generate a transcriptional output during the process of terminal differentiation. Since these transcriptional processes are accompanied by profound changes in nuclear chromatin structure involving the genes responsible for creating and maintaining the differentiated cell phenotype, future studies should focus on identifying the nature of these epigenetic events and factors, how they are regulated temporally and spatially, and the chromatin environment they eventually reside in. transcription factors; kidney development; p53; gene expression Address for reprint requests and other correspondence: S. S. El-Dahr, Dept. of Pediatrics, SL-37, Tulane Univ. Health Sciences Center, 1430 Tulane Ave., New Orleans, LA 70112 (e-mail: seldahr{at}tulane.edu )
doi_str_mv	10.1152/ajprenal.00562.2007
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Throughout the process of terminal differentiation, epithelial progenitors acquire or upregulate expression of renal function genes and cease to proliferate, while expression of embryonic genes is repressed. This exquisite coordination of gene expression is accomplished by signaling networks and transcription factors which couple the external environment with the new functional demands of the cell. While there has been much progress in understanding the early steps involved in renal epithelial cell differentiation, a major gap remains in our knowledge of the factors that control the steps of terminal differentiation. A number of signaling molecules and transcription factors have been recently implicated in determining segmental nephron identity and functional differentiation. While some of these factors (the p53 gene family, hepatocyte nuclear factor-1β) promote the terminal epithelial differentiation fate, others (Notch, Brn-1, IRX, KLF4, and Foxi1) tend to regulate differentiation of specific nephron segments and individual cell types. This review summarizes current knowledge related to these transcription factors and discusses how diverse cellular signals are integrated to generate a transcriptional output during the process of terminal differentiation. Since these transcriptional processes are accompanied by profound changes in nuclear chromatin structure involving the genes responsible for creating and maintaining the differentiated cell phenotype, future studies should focus on identifying the nature of these epigenetic events and factors, how they are regulated temporally and spatially, and the chromatin environment they eventually reside in. transcription factors; kidney development; p53; gene expression Address for reprint requests and other correspondence: S. S. El-Dahr, Dept. of Pediatrics, SL-37, Tulane Univ. 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Renal physiology</title><addtitle>Am J Physiol Renal Physiol</addtitle><description>Section of Pediatric Nephrology, Department of Pediatrics, Tulane University Health Sciences Center, New Orleans, Louisiana Submitted 26 November 2007 ; accepted in final form 19 February 2008 Terminal differentiation of epithelial cells into more specialized cell types is a critical step in organogenesis. Throughout the process of terminal differentiation, epithelial progenitors acquire or upregulate expression of renal function genes and cease to proliferate, while expression of embryonic genes is repressed. This exquisite coordination of gene expression is accomplished by signaling networks and transcription factors which couple the external environment with the new functional demands of the cell. While there has been much progress in understanding the early steps involved in renal epithelial cell differentiation, a major gap remains in our knowledge of the factors that control the steps of terminal differentiation. A number of signaling molecules and transcription factors have been recently implicated in determining segmental nephron identity and functional differentiation. While some of these factors (the p53 gene family, hepatocyte nuclear factor-1β) promote the terminal epithelial differentiation fate, others (Notch, Brn-1, IRX, KLF4, and Foxi1) tend to regulate differentiation of specific nephron segments and individual cell types. This review summarizes current knowledge related to these transcription factors and discusses how diverse cellular signals are integrated to generate a transcriptional output during the process of terminal differentiation. Since these transcriptional processes are accompanied by profound changes in nuclear chromatin structure involving the genes responsible for creating and maintaining the differentiated cell phenotype, future studies should focus on identifying the nature of these epigenetic events and factors, how they are regulated temporally and spatially, and the chromatin environment they eventually reside in. transcription factors; kidney development; p53; gene expression Address for reprint requests and other correspondence: S. S. El-Dahr, Dept. of Pediatrics, SL-37, Tulane Univ. 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This exquisite coordination of gene expression is accomplished by signaling networks and transcription factors which couple the external environment with the new functional demands of the cell. While there has been much progress in understanding the early steps involved in renal epithelial cell differentiation, a major gap remains in our knowledge of the factors that control the steps of terminal differentiation. A number of signaling molecules and transcription factors have been recently implicated in determining segmental nephron identity and functional differentiation. While some of these factors (the p53 gene family, hepatocyte nuclear factor-1β) promote the terminal epithelial differentiation fate, others (Notch, Brn-1, IRX, KLF4, and Foxi1) tend to regulate differentiation of specific nephron segments and individual cell types. 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subjects	Animals Cell Differentiation - genetics Cells Embryos Gene expression Gene Expression Regulation, Developmental - physiology Genes Humans Kidneys Nephrology Nephrons - embryology Nephrons - physiology Transcription, Genetic - physiology
title	Transcriptional control of terminal nephron differentiation
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