Human embryonic stem cell-derived test systems for developmental neurotoxicity: a transcriptomics approach

Krug, Anne; Kolde, Raivo; Gaspar, John Antonydas; Rempel, Eugen; Balmer, Nina V.; Meganathan, Kesavan; Vojnits, Kinga; Baquié, Mathurin; Waldmann, Tanja; Ensenat‐Waser, Roberto; Jagtap, Smita; Evans, Richard; Julien, Stéphanie; Peterson, Hedi; Zagoura, Dimitra; Kadereit, Suzanne; Gerhard, Daniel; Sotiriadou, Isaia; Heke, Michael; Natarajan, Karthick; Henry, Margit; Winkler, Johannes; Marchan, Rosemarie; Stoppini, Luc; Bosgra, Sieto; Westerhout, Joost; Verwei, Miriam; Vilo, Jaak; Kortenkamp, Andreas; Hescheler, Jürgen; Hothorn, Ludwig A.; Bremer, Susanne; Thriel, Christoph van; Krause, Karl‐Heinz; Hengstler, Jan G.; Rahnenführer, Jörg; Leist, Marcel; Sachinidis, Agapios

doi:10.1007/s00204-012-0967-3

Cited by 205 publications

(243 citation statements)

References 66 publications

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“…Gene array analysis performed on the livers of rats facilitated the differentiation between genotoxic and non-genotoxic carcinogens (Ellinger-Ziegelbauer et al 2008;. These successful toxicogenomics studies in vivo prompted several ambitious research programs, including the EU-funded SEURAT-1 network and the ESNATs project Krug et al 2013;Schug et al 2013;Weng et al 2014;Balmer et al 2014;Campos et al 2014), with the aim to identify biomarkers of toxicity in vitro. One long-term goal of these projects is to identify biomarkers in the in vitro systems that can predict certain mechanisms of toxicity in vivo.…”

Section: Introductionmentioning

confidence: 99%

Toxicogenomics directory of chemically exposed human hepatocytes

et al. 2014

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A long-term goal of numerous research projects is to identify biomarkers for in vitro systems predicting toxicity in vivo. Often, transcriptomics data are used to identify candidates for further evaluation. However, a systematic directory summarizing key features of chemically influenced genes in human hepatocytes is not yet available. To bridge this gap, we used the Open TG-GATES database with Affymetrix files of cultivated human hepatocytes incubated with chemicals, further sets of gene array data with hepatocytes from human donors generated in this study, and publicly available genome-wide datasets of human liver tissue from patients with non-alcoholic steatohepatitis (NASH), cirrhosis, and hepatocellular cancer (HCC). After a curation procedure, expression data of 143 chemicals were included into a comprehensive biostatistical analysis. The results are summarized in the publicly available toxicotranscriptomics directory (http://wiki.toxbank.net/toxicogenomics-map/) which provides information for all genes whether they are up- or downregulated by chemicals and, if yes, by which compounds. The directory also informs about the following key features of chemically influenced genes: (1) Stereotypical stress response. When chemicals induce strong expression alterations, this usually includes a complex but highly reproducible pattern named 'stereotypical response.' On the other hand, more specific expression responses exist that are induced only by individual compounds or small numbers of compounds. The directory differentiates if the gene is part of the stereotypical stress response or if it represents a more specific reaction. (2) Liver disease-associated genes. Approximately 20 % of the genes influenced by chemicals are up- or downregulated, also in liver disease. Liver disease genes deregulated in cirrhosis, HCC, and NASH that overlap with genes of the aforementioned stereotypical chemical stress response include CYP3A7, normally expressed in fetal liver; the phase II metabolizing enzyme SULT1C2; ALDH8A1, known to generate the ligand of RXR, one of the master regulators of gene expression in the liver; and several genes involved in normal liver functions: CPS1, PCK1, SLC2A2, CYP8B1, CYP4A11, ABCA8, and ADH4. (3) Unstable baseline genes. The process of isolating and the cultivation of hepatocytes was sufficient to induce some stress leading to alterations in the expression of genes, the so-called unstable baseline genes. (4) Biological function. Although more than 2,000 genes are transcriptionally influenced by chemicals, they can be assigned to a relatively small group of biological functions, including energy and lipid metabolism, inflammation and immune response, protein modification, endogenous and xenobiotic metabolism, cytoskeletal organization, stress response, and DNA repair. In conclusion, the introduced toxicotranscriptomics directory offers a basis for a rationale choice of candidate genes for biomarker evaluation studies and represents an easy to use source of background information on chemically infl...

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Section: Introductionmentioning

confidence: 99%

Toxicogenomics directory of chemically exposed human hepatocytes

et al. 2014

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“…Currently, intensive research activities are ongoing to establish in vitro systems particularly for hepatotoxicity (Grinberg et al 2014;Ramaiahgari et al 2014;Rodrigues et al 2013;Schug et al 2013), nephrotoxicity (Sanchez-Niño et al 2014;Fujiki et al 2013;, neurotoxicity (Barbosa et al 2014;Sisnaiske et al 2014;Frimat et al 2010) and developmental toxicity (Krug et al 2013;Rempel et al 2015;Balmer et al 2014;Zimmer et al 2014). For validation of in vitro systems with hepatocytes APAP represents a popular reference compound (Jennings et al 2014;Hengstler et al 2014).…”

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confidence: 99%

Highlight report: acetaminophen hepatotoxicity

Ghallab

2015

Arch Toxicol

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“…Particularly, in the fields of liver (Godoy et al 2013;Zellmer et al 2010;Godoy and Bolt 2012), kidney (Faiz et al 2015;Yang et al 2014), and neurotoxicity (Zimmer et al 2014;Waldmann et al 2014;Krug et al 2013), in vitro systems are frequently used. Primary human cells still represent a gold standard in toxicological research (Heise et al 2012;Ghallab 2013Ghallab , 2014a.…”

mentioning

confidence: 99%

Highlight report: perspectives in stem cell research—unbiased quantification of the similarity between in vitro generated and primary hepatocytes

Ghallab

2015

Arch Toxicol

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Human embryonic stem cell-derived test systems for developmental neurotoxicity: a transcriptomics approach

Cited by 205 publications

References 66 publications

Toxicogenomics directory of chemically exposed human hepatocytes

Toxicogenomics directory of chemically exposed human hepatocytes

Highlight report: acetaminophen hepatotoxicity

Highlight report: perspectives in stem cell research—unbiased quantification of the similarity between in vitro generated and primary hepatocytes

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