Histone Deacetylase (HDAC) Activity Is Critical for Embryonic Kidney Gene Expression, Growth, and Differentiation

Autor:	Xiao Yao, Christine Bellew, Jana Stefkova, Samir S. El-Dahr, Shaowei Chen, Dimcho Bachvarov, Susana Dipp, Zubaida Saifudeen
Rok vydání:	2011
Předmět:	Cellular differentiation Apoptosis Mice Transgenic Biology Kidney Biochemistry Gene Expression Regulation Enzymologic Histone Deacetylases Histones Mice Histone H3 Morphogenesis Animals Homeostasis Molecular Biology Regulation of gene expression Gene knockdown urogenital system Histone deacetylase 2 Cell Cycle Gene Expression Regulation Developmental Acetylation Cell Differentiation Cell Biology Embryo Mammalian HDAC4 Histone Deacetylase Inhibitors Cancer research Histone deacetylase Transcriptome Chromatin immunoprecipitation Developmental Biology Signal Transduction Transcription Factors
Zdroj:	Journal of Biological Chemistry. 286:32775-32789
ISSN:	0021-9258
DOI:	10.1074/jbc.m111.248278
Popis:	Histone deacetylases (HDACs) regulate fundamental biological processes such as cellular proliferation, differentiation, and survival via genomic and nongenomic effects. This study examined the importance of HDAC activity in the regulation of gene expression and differentiation of the developing mouse kidney. Class I HDAC1-3 and class II HDAC4, -7, and -9 genes are developmentally regulated. Moreover, HDAC1-3 are highly expressed in nephron precursors. Short term treatment of cultured mouse embryonic kidneys with HDAC inhibitors (HDACi) induced global histone H3 and H4 hyperacetylation and H3K4 hypermethylation. However, genome-wide profiling revealed that the HDAC-regulated transcriptome is restricted and encompasses regulators of the cell cycle, Wnt/β-catenin, TGF-β/Smad, and PI3K-AKT pathways. Further analysis demonstrated that base-line expression of key developmental renal regulators, including Osr1, Eya1, Pax2/8, WT1, Gdnf, Wnt9b, Sfrp1/2, and Emx2, is dependent on intact HDAC activity. Treatment of cultured embryonic kidney cells with HDACi recapitulated these gene expression changes, and chromatin immunoprecipitation assays revealed that HDACi is associated with histone hyperacetylation of Pax2/Pax8, Gdnf, Sfrp1, and p21. Gene knockdown studies demonstrated that HDAC1 and HDAC2 play a redundant role in regulation of Pax2/8 and Sfrp1 but not Gdnf. Long term treatment of embryonic kidneys with HDACi impairs the ureteric bud branching morphogenesis program and provokes growth arrest and apoptosis. We conclude that HDAC activity is critical for normal embryonic kidney homeostasis, and we implicate class I HDACs in the regulation of early nephron gene expression, differentiation, and survival.
Databáze:	OpenAIRE
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