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uo, W., Fan, W., Xie, H., Jing, L., Ricicki, E., Vouros, P., Zhao, L.P. and Zarbl, H. (2005) Phenotypic anchoring of global gene expression profiles induced by N-hydroxy-4 acetylaminobiphenyl and benzo[a]pyrene diol epoxide reveals correlations between expression profiles and mechanism of toxicity. Chemical Research in Toxicology, 18, 619-629.
has been cited by the following article:
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TITLE:
Applicability of the P19CL6 cells as a model of cardiomyocytes – a transcriptome analysis
AUTHORS:
Iraj Khodadadi, Nick J. Plant, Vassilis Mersinias, Alfred E. Thumser
KEYWORDS:
Gene expression; Cardiomyocyte; P19CL6 Cell-line
JOURNAL NAME:
Health,
Vol.2 No.1,
January
15,
2010
ABSTRACT: The P19CL6 cell-line, a clone of the P19 mouse embryonal carcinoma cell-line, has been exten-sively used as a model for cardiomyocytes as these cells can be differentiated into a cardio-myocyte phenotype upon incubation with di-methyl sulfoxide. Uniquely, these cells can be observed to “beat” when monitored by mi-croscopy. We started investigating the response of P19CL6 cells to fatty acids, but highly vari-able results lead us to investigate the phenotype of the P19CL6 cells in more depth. In this study we demonstrated that the P19CL6 cells are re-sponsive to adrenaline, but loose the “beating” phenotype after 16 passages in culture. Analysis of specific mRNA transcripts indicated that the P19CL6 cells express both cardiac- and skeletal muscle-specific genes, while global analysis of microarray data showed clear differences be-tween the P19CL6 cells and cardiac tissue of embryonic or adult origin. In conclusion, our observations suggest caution in the use of the P19CL6 cells as a model of cardiomyocytes unless rigorous validation for the intended analysis has been undertaken.