Genomic alterations in cultured human embryonic stem cells

Cultured human embryonic stem cell (hESC) lines are an invaluable resource because they provide a uniform and stable genetic system for functional analyses and therapeutic applications. Nevertheless, these dividing cells, like other cells, probably undergo spontaneous mutation at a rate of 10 −9 per...

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Veröffentlicht in:	Nature genetics 2005-10, Vol.37 (10), p.1099-1103
Hauptverfasser:	Maitra, Anirban, Arking, Dan E, Shivapurkar, Narayan, Ikeda, Morna, Stastny, Victor, Kassauei, Keyaunoosh, Sui, Guoping, Cutler, David J, Liu, Ying, Brimble, Sandii N, Noaksson, Karin, Hyllner, Johan, Schulz, Thomas C, Zeng, Xianmin, Freed, William J, Crook, Jeremy, Abraham, Suman, Colman, Alan, Sartipy, Peter, Matsui, Sei-Ichi, Carpenter, Melissa, Gazdar, Adi F, Rao, Mahendra, Chakravarti, Aravinda
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Sprache:	eng
Schlagworte:	Agriculture Animal Genetics and Genomics Biological and medical sciences Biological properties Biomedical and Life Sciences Biomedicine Cancer Research Cell Culture Techniques Cell Line DNA - genetics DNA - metabolism DNA Methylation DNA sequencing DNA, Mitochondrial - chemistry Embryo, Mammalian - cytology Embryonic stem cells Fundamental and applied biological sciences. Psychology Gene Function Gene mutations Genetic aspects Genetics of eukaryotes. Biological and molecular evolution Genome, Human - genetics Genomics Human Genetics Humans letter Methylation Mitochondrial DNA Mutants Mutation Nucleotide sequencing Physiological aspects Promoter Regions, Genetic Stem cells Stem Cells - metabolism
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creator	Maitra, Anirban Arking, Dan E Shivapurkar, Narayan Ikeda, Morna Stastny, Victor Kassauei, Keyaunoosh Sui, Guoping Cutler, David J Liu, Ying Brimble, Sandii N Noaksson, Karin Hyllner, Johan Schulz, Thomas C Zeng, Xianmin Freed, William J Crook, Jeremy Abraham, Suman Colman, Alan Sartipy, Peter Matsui, Sei-Ichi Carpenter, Melissa Gazdar, Adi F Rao, Mahendra Chakravarti, Aravinda
description	Cultured human embryonic stem cell (hESC) lines are an invaluable resource because they provide a uniform and stable genetic system for functional analyses and therapeutic applications. Nevertheless, these dividing cells, like other cells, probably undergo spontaneous mutation at a rate of 10 −9 per nucleotide. Because each mutant has only a few progeny, the overall biological properties of the cell culture are not altered unless a mutation provides a survival or growth advantage. Clonal evolution that leads to emergence of a dominant mutant genotype may potentially affect cellular phenotype as well. We assessed the genomic fidelity of paired early- and late-passage hESC lines in the course of tissue culture. Relative to early-passage lines, eight of nine late-passage hESC lines had one or more genomic alterations commonly observed in human cancers, including aberrations in copy number (45%), mitochondrial DNA sequence (22%) and gene promoter methylation (90%), although the latter was essentially restricted to 2 of 14 promoters examined. The observation that hESC lines maintained in vitro develop genetic and epigenetic alterations implies that periodic monitoring of these lines will be required before they are used in in vivo applications and that some late-passage hESC lines may be unusable for therapeutic purposes.
doi_str_mv	10.1038/ng1631
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Nevertheless, these dividing cells, like other cells, probably undergo spontaneous mutation at a rate of 10 −9 per nucleotide. Because each mutant has only a few progeny, the overall biological properties of the cell culture are not altered unless a mutation provides a survival or growth advantage. Clonal evolution that leads to emergence of a dominant mutant genotype may potentially affect cellular phenotype as well. We assessed the genomic fidelity of paired early- and late-passage hESC lines in the course of tissue culture. Relative to early-passage lines, eight of nine late-passage hESC lines had one or more genomic alterations commonly observed in human cancers, including aberrations in copy number (45%), mitochondrial DNA sequence (22%) and gene promoter methylation (90%), although the latter was essentially restricted to 2 of 14 promoters examined. 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subjects	Agriculture Animal Genetics and Genomics Biological and medical sciences Biological properties Biomedical and Life Sciences Biomedicine Cancer Research Cell Culture Techniques Cell Line DNA - genetics DNA - metabolism DNA Methylation DNA sequencing DNA, Mitochondrial - chemistry Embryo, Mammalian - cytology Embryonic stem cells Fundamental and applied biological sciences. Psychology Gene Function Gene mutations Genetic aspects Genetics of eukaryotes. Biological and molecular evolution Genome, Human - genetics Genomics Human Genetics Humans letter Methylation Mitochondrial DNA Mutants Mutation Nucleotide sequencing Physiological aspects Promoter Regions, Genetic Stem cells Stem Cells - metabolism
title	Genomic alterations in cultured human embryonic stem cells
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