Publikation: Major changes of cell function and toxicant sensitivity in cultured cells undergoing mild, quasi-natural genetic drift
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Datum
2018
Autor:innen
May, Patrick
Krishna, Abhimanyu
Trefzer, Timo
Behbehani, Mehri
Gstraunthaler, Gerhard
Herausgeber:innen
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European Union (EU): 681002
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EUToxRisk21
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Open Access Hybrid
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Core Facility der Universität Konstanz
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Published
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Archives of Toxicology. 2018, 92(12), pp. 3487-3503. ISSN 0340-5761. eISSN 1432-0738. Available under: doi: 10.1007/s00204-018-2326-5
Zusammenfassung
Genomic drift affects the functional properties of cell lines, and the reproducibility of data from in vitro studies. While chromosomal aberrations and mutations in single pivotal genes are well explored, little is known about effects of minor, possibly pleiotropic, genome changes. We addressed this question for the human dopaminergic neuronal precursor cell line LUHMES by comparing two subpopulations (SP) maintained either at the American-Type-Culture-Collection (ATCC) or by the original provider (UKN). Drastic differences in susceptibility towards the specific dopaminergic toxicant 1-methyl-4-phenylpyridinium (MPP+) were observed. Whole-genome sequencing was performed to identify underlying genetic differences. While both SP had normal chromosome structures, they displayed about 70 differences on the level of amino acid changing events. Some of these differences were confirmed biochemically, but none offered a direct explanation for the altered toxicant sensitivity pattern. As second approach, markers known to be relevant for the intended use of the cells were specifically tested. The "ATCC" cells rapidly down-regulated the dopamine-transporter and tyrosine-hydroxylase after differentiation, while "UKN" cells maintained functional levels. As the respective genes were not altered themselves, we conclude that polygenic complex upstream changes can have drastic effects on biochemical features and toxicological responses of relatively similar SP of cells.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
570 Biowissenschaften, Biologie
Schlagwörter
Human genome, Cell stability, Dopamine transporter, genome comparison, genotype-phenotype correlation
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GUTBIER, Simon, Patrick MAY, Sylvie BERTHELOT, Abhimanyu KRISHNA, Timo TREFZER, Mehri BEHBEHANI, Liudmila EFREMOVA, Johannes DELP, Gerhard GSTRAUNTHALER, Tanja WALDMANN, Marcel LEIST, 2018. Major changes of cell function and toxicant sensitivity in cultured cells undergoing mild, quasi-natural genetic drift. In: Archives of Toxicology. 2018, 92(12), pp. 3487-3503. ISSN 0340-5761. eISSN 1432-0738. Available under: doi: 10.1007/s00204-018-2326-5BibTex
@article{Gutbier2018-12Major-43717,
year={2018},
doi={10.1007/s00204-018-2326-5},
title={Major changes of cell function and toxicant sensitivity in cultured cells undergoing mild, quasi-natural genetic drift},
number={12},
volume={92},
issn={0340-5761},
journal={Archives of Toxicology},
pages={3487--3503},
author={Gutbier, Simon and May, Patrick and Berthelot, Sylvie and Krishna, Abhimanyu and Trefzer, Timo and Behbehani, Mehri and Efremova, Liudmila and Delp, Johannes and Gstraunthaler, Gerhard and Waldmann, Tanja and Leist, Marcel}
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<dcterms:abstract xml:lang="eng">Genomic drift affects the functional properties of cell lines, and the reproducibility of data from in vitro studies. While chromosomal aberrations and mutations in single pivotal genes are well explored, little is known about effects of minor, possibly pleiotropic, genome changes. We addressed this question for the human dopaminergic neuronal precursor cell line LUHMES by comparing two subpopulations (SP) maintained either at the American-Type-Culture-Collection (ATCC) or by the original provider (UKN). Drastic differences in susceptibility towards the specific dopaminergic toxicant 1-methyl-4-phenylpyridinium (MPP+) were observed. Whole-genome sequencing was performed to identify underlying genetic differences. While both SP had normal chromosome structures, they displayed about 70 differences on the level of amino acid changing events. Some of these differences were confirmed biochemically, but none offered a direct explanation for the altered toxicant sensitivity pattern. As second approach, markers known to be relevant for the intended use of the cells were specifically tested. The "ATCC" cells rapidly down-regulated the dopamine-transporter and tyrosine-hydroxylase after differentiation, while "UKN" cells maintained functional levels. As the respective genes were not altered themselves, we conclude that polygenic complex upstream changes can have drastic effects on biochemical features and toxicological responses of relatively similar SP of cells.</dcterms:abstract>
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