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1. Histone deacetylase 2 is required for chromatin condensation and subsequent enucleation of cultured mouse fetal erythroblasts

Author

Peng Ji, Victor Yeh, Tzutzuy Ramirez, Maki Murata-Hori, and Harvey F. Lodish

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Background During the final stages of differentiation of mammalian erythroid cells, the chromatin is condensed and enucleated. We previously reported that Rac GTPases and their downstream target, mammalian homolog of Drosophila diaphanous 2 (mDia2), are required for enucleation of in vitro cultured mouse fetal liver erythroblasts. However, it is not clear how chromatin condensation is achieved and whether it is required for enucleation.Design and Methods Mouse fetal liver erythroblasts were purified from embryonic day 14.5 pregnant mice and cultured in erythropoietin-containing medium. Enucleation was determined by flow-cytometry based analysis after treatment with histone deacetylase inhibitors or infection with lentiviral short harirpin RNA.Results We showed that histone deacetylases play critical roles in chromatin condensation and enucleation in cultured mouse fetal liver erythroblasts. Enzymatic inhibition of histone deacetylases by trichostatin A or valproic acid prior to the start of enucleation blocked chromatin condensation, contractile actin ring formation and enucleation. We further demonstrated that histone deacetylases 1, 2, 3 and 5 are highly expressed in mouse fetal erythroblasts. Short hairpin RNA down-regulation of histone deacetylase 2, but not of the other histone deacetylases, phenotypically mimicked the effect of trichostatin A or valproic acid treatment, causing significant inhibition of chromatin condensation and enucleation. Importantly, knock-down of histone deacetylase 2 did not affect erythroblast proliferation, differentiation, or apoptosis.Conclusions These results identify histone deacetylase 2 as an important regulator, mediating chromatin condensation and enucleation in the final stages of mammalian erythropoiesis.

Published
2010
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4. Use of in vitro metabolomics in NRK cells to help predicting nephrotoxicity and differentiating the MoA of nephrotoxicants

Author

Barbara Birk, Tilmann B. Walk, H.-A. Huener, Saskia Sperber, A. Verlohner, Michael Manfred Herold, Tzutzuy Ramirez Hernandez, Hennicke Kamp, Volker Haake, Bennard van Ravenzwaay, Meike M. Amma, Nicola J. Hewitt, and Svenja K. Wallisch

Subjects
Drug-Related Side Effects and Adverse Reactions, Cell Survival, Chemistry, Metabolite, Endogeny, General Medicine, Plasma protein binding, Toxicology, In vitro, Cell Line, Rats, Nephrotoxicity, chemistry.chemical_compound, Kidney Tubules, Metabolomics, Biochemistry, Metabolome, Animals, Kidney Diseases, Intracellular
Abstract

We describe a strategy using an in vitro metabolomics assay with tubular rat NRK-52E cells to investigate the Modes of Action (MoAs) of nephrotoxic compounds. Chemicals were selected according to their MoAs based on literature information: acetaminophen, 4-aminophenol and S-(trichlorovinyl-)L-cysteine (TCVC), (covalent protein binding); gentamycin, vancomycin, polymycin B and CdCl2 (lysosomal overload) and tenofovir and cidofovir (mitochondrial DNA-interaction). After treatment and harvesting of the cells, intracellular endogenous metabolites were quantified relative to vehicle control. Metabolite patterns were evaluated in a purely data-driven pattern generation process excluding published information. This strategy confirmed the assignment of the chemicals to the respective MoA except for TCVC and CdCl2. Finally, TCVC was defined as unidentified and CdCl2 was reclassified to the MoA "covalent protein binding". Hierarchical cluster analysis of 58 distinct metabolites from the patterns enabled a clear visual separation of chemicals in each MoA. The assay reproducibility was very good and metabolic responses were consistent. These results support the use of metabolome analysis in NRK-52E cells as a suitable tool for understanding and investigating the MoA of nephrotoxicants. This assay could enable the early identification of nephrotoxic compounds and finally reduce animal testing.

Published
2021

5. Peptide reactivity associated with skin sensitization: The QSAR Toolbox and TIMES compared to the DPRA

Author

Susanne N. Kolle, Naveed Honarvar, Tzutzuy Ramirez, Wera Teubner, Robert Landsiedel, Daniel Urbisch, and Annette Mehling

Subjects
0301 basic medicine, Quantitative structure–activity relationship, Stereochemistry, In silico, Quantitative Structure-Activity Relationship, Peptide, Computational biology, Toxicology, Mice, 03 medical and health sciences, Chalcones, In vivo, medicine, Animals, Humans, Computer Simulation, Furans, Pyruvates, Sensitization, chemistry.chemical_classification, Human studies, Cyclohexanones, Local lymph node assay, Chemistry, Skin sensitization, General Medicine, Local Lymph Node Assay, Models, Theoretical, Butanones, 030104 developmental biology, medicine.anatomical_structure, Dermatitis, Allergic Contact, Peptides, Haptens, Protein Binding
Abstract

The molecular initiating event (MIE) of skin sensitization is the binding of a hapten to dermal proteins. This can be assessed using the in chemico direct peptide reactivity assay (DPRA) or in silico tools such as the QSAR Toolbox and TIMES SS. In this study, the suitability of these methods was analyzed by comparing their results to in vivo sensitization data of LLNA and human studies. Compared to human data, 84% of non-sensitizers and sensitizers yielded consistent results in the DPRA. In silico tools resulted in 'no alert' for 83%-100% of the non-sensitizers, but alerted only 55%-61% of the sensitizers. The inclusion of biotic and abiotic transformation simulations yielded more alerts for sensitizers, but simultaneously dropped the number of non-alerted non-sensitizers. In contrast to the DPRA, in silico tools were more consistent with results of the LLNA than human data. Interestingly, the new "DPRA profilers" (QSAR Toolbox) provided unsatisfactory results. Additionally, the results were combined in the '2 out of 3' prediction model with in vitro data derived from LuSens and h-CLAT. Using DPRA results, the model identified 90% of human sensitizers and non-sensitizers; using in silico results (including abiotic and biotic activations) instead of DPRA results led to a comparable high predictivity.

Published
2016

6. Intra- and inter-laboratory reproducibility and accuracy of the LuSens assay: A reporter gene-cell line to detect keratinocyte activation by skin sensitizers

Author

Paul Beilstein, Alexandra Aumann, Kimberly G. Norman, Sebastian Hoffmann, Markus Fehr, Xiaohong Wang, Amber Edwards, Florence Burleson, Annette Mehling, Frank Gerberick, Tina Remus, Cindy A. Ryan, Bennard van Ravenzwaay, Tzutzuy Ramirez, Robert Landsiedel, Jackie E. Bader, Nadine Stein, and Leslie M. Foertsch

Subjects
Keratinocytes, 0301 basic medicine, Pathology, medicine.medical_specialty, NF-E2-Related Factor 2, Computational biology, 010501 environmental sciences, Animal Testing Alternatives, Dermatitis, Contact, Toxicology, Sensitivity and Specificity, 01 natural sciences, Cell Line, 03 medical and health sciences, Genes, Reporter, In vivo, medicine, Humans, Bioassay, Inter-laboratory, Luciferases, Reliability (statistics), 0105 earth and related environmental sciences, Reproducibility, Reporter gene, business.industry, Reproducibility of Results, Keratinocyte activation, General Medicine, Allergens, Antioxidant Response Elements, 030104 developmental biology, Cell culture, Biological Assay, Laboratories, business
Abstract

Several non-animal methods are now available to address the key events leading to skin sensitization as defined by the adverse outcome pathway. The KeratinoSens™ assay addresses the cellular event of keratinocyte activation and is a method accepted under OECD TG 442D. In this study, the results of an inter-laboratory evaluation of the “me-too” LuSens assay, a bioassay that uses a human keratinocyte cell line harboring a reporter gene construct composed of the rat antioxidant response element (ARE) of the NADPH:quinone oxidoreductase 1 gene and the luciferase gene, are described. Earlier in-house validation with 74 substances showed an accuracy of 82% in comparison to human data. When used in a battery of non-animal methods, even higher predictivity is achieved. To meet European validation criteria, a multicenter study was conducted in 5 laboratories. The study was divided into two phases, to assess 1) transferability of the method, and 2) reproducibility and accuracy. Phase I was performed by testing 8 non-coded test substances; the results showed a good transferability to naïve laboratories even without on-site training. Phase II was performed with 20 coded test substances (performance standards recommended by OECD, 2015). In this phase, the intra- and inter-laboratory reproducibility as well as accuracy of the method was evaluated. The data demonstrate a remarkable reproducibility of 100% and an accuracy of over 80% in identifying skin sensitizers, indicating a good concordance with in vivo data. These results demonstrate good transferability, reliability and accuracy of the method thereby achieving the standards necessary for use in a regulatory setting to detect skin sensitizers.

Published
2016

7. In vitro-to-in vivo extrapolation (IVIVE) by PBTK modeling for animal-free risk assessment approaches of potential endocrine-disrupting compounds

Author

Bennard van Ravenzwaay, Barbara Birk, Caroline Gomes, Rene Zbranek, Tabitha Williford, Christian Haase, Tzutzuy Ramirez Hernandez, Robert Landsiedel, and Eric Fabian

Subjects
0301 basic medicine, Male, medicine.drug_class, Health, Toxicology and Mutagenesis, In silico, Administration, Oral, 010501 environmental sciences, Pharmacology, Endocrine Disruptors, Toxicology, Animal Testing Alternatives, 01 natural sciences, Models, Biological, Risk Assessment, Androgen receptor binding, 03 medical and health sciences, Trenbolone, In vivo, Yeasts, medicine, Toxicokinetics, Animals, Humans, Methyltestosterone, Rats, Wistar, 0105 earth and related environmental sciences, Dose-Response Relationship, Drug, Chemistry, General Medicine, In vitro, 030104 developmental biology, Liver, Receptors, Estrogen, Estrogen, Receptors, Androgen, Female, medicine.drug
Abstract

While in vitro testing is used to identify hazards of chemicals, nominal in vitro assay concentrations may misrepresent potential in vivo effects and do not provide dose–response data which can be used for a risk assessment. We used reverse dosimetry to compare in vitro effect concentrations-to-in vivo doses causing toxic effects related to endocrine disruption. Ten compounds (acetaminophen, bisphenol A, caffeine, 17α-ethinylestradiol, fenarimol, flutamide, genistein, ketoconazole, methyltestosterone, and trenbolone) have been tested in the yeast estrogen screening (YES) or yeast androgen-screening (YAS) assays for estrogen and androgen receptor binding, as well as the H295R assay (OECD test guideline no. 456) for potential interaction with steroidogenesis. With the assumption of comparable concentration–response ratios of these effects in the applied in vitro systems and the in vivo environment, the lowest observed effect concentrations from these assays were extrapolated to oral doses (LOELs) by reverse dosimetry. For extrapolation, an eight-compartment Physiologically Based Toxicokinetic (PBTK) rat model based on in vitro and in silico input data was used. The predicted LOEL was then compared to the LOEL actually observed in corresponding in vivo studies (YES/YAS assay versus uterotrophic or Hershberger assay and steroidogenesis assay versus pubertal assay or generation studies). This evaluation resulted in 6 out of 10 compounds for which the predicted LOELs were in the same order of magnitude as the actual in vivo LOELs. For four compounds, the predicted LOELs differed by more than tenfold from the actual in vivo LOELs. In conclusion, these data demonstrate the applicability of reverse dosimetry using a simple PBTK model to serve in vitro–in silico-based risk assessment, but also identified cases and test substance were the applied methods are insufficient.

Published
2018

9. Prediction of liver toxicity and mode of action using metabolomics in vitro in HepG2 cells

Author

Ben van Ravenzwaay, Tzutzuy Ramirez, Tilmann B. Walk, Werner Mellert, Hennicke Kamp, Thomas Hofmann, Erik Peter, Hans Albrecht Huener, Xiaoqi Jiang, Thomas Hartung, Alexander Strigun, Michael Manfred Herold, A. Verlohner, Michael Spitzer, Natalie Bordag, and Saskia Sperber

Subjects
0301 basic medicine, In Vitro Techniques, Liver toxicity, Health, Toxicology and Mutagenesis, Metabolite, Peroxisome Proliferation, Pharmacology, Biology, Toxicology, Animal Testing Alternatives, Organ Toxicity and Mechanisms, 03 medical and health sciences, chemistry.chemical_compound, Metabolomics, In vitro, ddc:570, Toxicity Tests, Metabolome, Humans, Mode of action, HepG2 cells, General Medicine, Hep G2 Cells, 030104 developmental biology, chemistry, Liver, Enzyme Induction, Toxicity
Abstract

Liver toxicity is a leading systemic toxicity of drugs and chemicals demanding more human-relevant, high throughput, cost effective in vitro solutions. In addition to contributing to animal welfare, in vitro techniques facilitate exploring and understanding the molecular mechanisms underlying toxicity. New ‘omics technologies can provide comprehensive information on the toxicological mode of action of compounds, as well as quantitative information about the multi-parametric metabolic response of cellular systems in normal and patho-physiological conditions. Here, we combined mass-spectroscopy metabolomics with an in vitro liver toxicity model. Metabolite profiles of HepG2 cells treated with 35 test substances resulted in 1114 cell supernatants and 3556 intracellular samples analyzed by metabolomics. Control samples showed relative standard deviations of about 10–15%, while the technical replicates were at 5–10%. Importantly, this procedure revealed concentration–response effects and patterns of metabolome changes that are consistent for different liver toxicity mechanisms (liver enzyme induction/inhibition, liver toxicity and peroxisome proliferation). Our findings provide evidence that identifying organ toxicity can be achieved in a robust, reliable, human-relevant system, representing a non-animal alternative for systemic toxicology. Electronic supplementary material The online version of this article (doi:10.1007/s00204-017-2079-6) contains supplementary material, which is available to authorized users.

Published
2017

10. LuSens: Shedding Light on Skin Sensitization

Author

Tzutzuy Ramirez, Annette Mehling, and Robert Landsiedel

Subjects
Reporter gene, In vivo, Chemistry, Cell culture, Local lymph node assay, Context (language use), Luciferase, Gene, Hedgehog signaling pathway, Cell biology
Abstract

Skin sensitizers or their metabolites are predominantly electrophilic molecules and have the capacity to induce the Nrf2 signalling pathway. Therefore, they trigger the expression of genes under the control of the antioxidant response element (ARE), most of which are detoxifying enzymes and other protective proteins. In the meantime extensive evidence is available to demonstrate that the activation of the Nrf2 pathway provides valuable information for identification of skin sensitizers. The activation of keratinocytes is the second key event of skin sensitization adverse outcome pathway described by the OECD, and the LuSens assay is used to generate information to cover this key event. The LuSens assay is based on a human keratinocyte reporter cell line harbouring the ARE of the NADPH:quinone oxidoreductase 1 (nqo1) gene from the rat and the reporter gene of luciferase. In the presence of skin sensitizers, luciferase is overexpressed indicating direct activation of the nqo1-ARE. The LuSens assay has demonstrated good proficiency to detect skin sensitizers, good reproducibility, as well as its interchangeability with the KeratinoSens™ assay. Moreover, studies have also demonstrated its use as part of a testing battery, resulting in accuracy similar to that obtained with the in vivo gold standard, the local lymph node assay. In this context, the LuSens assay is a major contribution to the replacement of in vivo experiments for skin sensitization.

Published
2017

11. Xenobiotic metabolizing enzyme activities in cells used for testing skin sensitization in vitro

Author

Tzutzuy Ramirez, E. Fabian, Robert Landsiedel, V. Blatz, B. van Ravenzwaay, D. Vogel, Tobias Eltze, Franz Oesch, and Susanne N. Kolle

Subjects
Animal Use Alternatives, Keratinocytes, Male, Arylamine N-Acetyltransferase, Health, Toxicology and Mutagenesis, Metabolite, Aldehyde dehydrogenase, Cosmetics, Toxicology, Esterase, Cell Line, Xenobiotics, chemistry.chemical_compound, Cytosol, Limit of Detection, Microsomes, Toxicity Tests, Animals, Humans, Rats, Wistar, Skin, Alcohol dehydrogenase, biology, Acetylation, Dendritic Cells, General Medicine, Monooxygenase, In vitro, Rats, Isoenzymes, chemistry, Biochemistry, Cell culture, Dermatitis, Allergic Contact, Microsomes, Liver, biology.protein
Abstract

For ethical and regulatory reasons, in vitro tests for scoring potential toxicities of cosmetics are essential. A test strategy for investigating potential skin sensitization using two human keratinocytic and two human dendritic cell lines has been developed (Mehling et al. Arch Toxicol 86:1273–1295, 2012). Since prohaptens may be metabolically activated in the skin, information on xenobiotic metabolizing enzyme (XME) activities in these cell lines is of high interest. In this study, XME activity assays, monitoring metabolite or cofactor, showed the following: all three passages of keratinocytic (KeratinoSens® and LuSens) and dendritic (U937 und THP-1) cells displayed N-acetyltransferase 1 (NAT1) activities (about 6–60 nmol/min/mg S9-protein for acetylation of para-aminobenzoic acid). This is relevant since reactive species of many cosmetics are metabolically controlled by cutaneous NAT1. Esterase activities of about 1–4 nmol fluorescein diacetate/min/mg S9-protein were observed in all passages of investigated keratinocytic and about 1 nmol fluorescein diacetate/min/mg S9-protein in dendritic cell lines. This is also of practical relevance since many esters and amides are detoxified and others activated by cutaneous esterases. In both keratinocytic cell lines, activities of aldehyde dehydrogenase (ALDH) were observed (5–17 nmol product/min/mg cytosolic protein). ALDH is relevant for the detoxication of reactive aldehydes. Activities of several other XME were below detection, namely the investigated cytochrome P450-dependent alkylresorufin O-dealkylases 7-ethylresorufin O-deethylase, 7-benzylresorufin O-debenzylase and 7-pentylresorufin O-depentylase (while NADPH cytochrome c reductase activities were much above the limit of quantification), the flavin-containing monooxygenase, the alcohol dehydrogenase as well as the UDP glucuronosyl transferase activities.

Published
2013

13. Putting the parts together: Combining in vitro methods to test for skin sensitizing potentials

Author

Eric Fabian, Caroline Bauch, Wera Teubner, Tzutzuy Ramirez, Robert Landsiedel, Susanne N. Kolle, Tobias Eltze, Annette Mehling, and Bennard van Ravenzwaay

Subjects
integumentary system, Chemistry, In silico, Skin sensitization, In vitro toxicology, Reproducibility of Results, Skin Irritancy Tests, Nanotechnology, Context (language use), General Medicine, Computational biology, Allergens, Animal Testing Alternatives, Toxicology, medicine.disease, In vitro, Dermatitis, Allergic Contact, medicine, Animals, Humans, Biological Assay, Allergic contact dermatitis, Nrf2 signaling
Abstract

Allergic contact dermatitis is a common skin disease and is elicited by repeated skin contact with an allergen. In the regulatory context, currently only data from animal experiments are acceptable to assess the skin sensitizing potential of substances. Animal welfare and EU Cosmetic Directive/Regulation call for the implementation of animal-free alternatives for safety assessments. The mechanisms that trigger skin sensitization are complex and various steps are involved. Therefore, a single in vitro method may not be able to accurately assess this endpoint. Non-animal methods are being developed and validated and can be used for testing strategies that ensure a reliable prediction of skin sensitization potentials. In this study, the predictivities of four in vitro assays, one in chemico and one in silico method addressing three different steps in the development of skin sensitization were assessed using 54 test substances of known sensitizing potential. The predictivity of single tests and combinations of these assays were compared. These data were used to develop an in vitro testing scheme and prediction model for the detection of skin sensitizers based on protein reactivity, activation of the Keap-1/Nrf2 signaling pathway and dendritic cell activation.

Published
2012

14. A testing strategy for the identification of mammalian, systemic endocrine disruptors with particular focus on steroids

Author

Burkhard Flick, Tzutzuy Ramirez, Roland Buesen, Hennicke Kamp, Volker Strauss, Bennard van Ravenzwaay, and Susanne N. Kolle

Subjects
Male, Cell Survival, Cell Culture Techniques, Saccharomyces cerevisiae, Endocrine Disruptors, Pharmacology, Steroid biosynthesis, Biology, Animal Testing Alternatives, Toxicology, In vivo, Cell Line, Tumor, Toxicity Tests, Metabolome, Animals, Humans, Metabolomics, Endocrine system, Testosterone, Rats, Wistar, Dose-Response Relationship, Drug, Estradiol, Estrogen Receptor alpha, In vitro toxicology, Reproducibility of Results, General Medicine, beta-Galactosidase, Rats, Endocrine disruptor, Receptors, Androgen, Hormone receptor, Biological Assay, Female, Hormone
Abstract

Most endocrine disruptors interact with hormone receptors or steroid biosynthesis and metabolism, thereby modifying the physiological function of endogenous hormones. Here, we present an alternative testing paradigm for detection of endocrine modes of action that replace and reduce animal testing through refinement. Receptor mediated endocrine effects were assessed using the yeast-based receptor-mediated transcriptional activation YES/YAS assays and effects on steroid hormone biosynthesis were assessed using the human cell line H295R in the steroidogenesis assay. In our testing paradigm we propose to complement the in vitro assays with a single in vivo repeated dose study in which plasma samples are analyzed for their metabolome profile in addition to classical parameters such as histopathology. The combination of these methods does not only contribute to refinement and reduction of animal testing, but also has significantly increased the efficient allocation of resources and allows for a sound assessment of the endocrine disruption potential of compounds. Thus, this proposal constitutes a potentially attractive alternative to EPA’s Endocrine Disruptor Screening Program to identify mammalian, systemic endocrine modes of action. Data on 14 reference substances for which the in vitro YES/YAS and steroidogenesis assays and the in vivo metabolome analysis were performed to assess their putative endocrine modes of action are presented here.

Published
2012

15. Mammalian erythroblast enucleation requires PI3K-dependent cell polarization

Author

Harvey F. Lodish, Maki Murata-Hori, Senthil Raja Jayapal, Tzutzuy Ramirez, Peng Ji, and Junxia Wang

Subjects
Cytoplasm, Erythroblasts, Cell, Enucleation, Biology, Microtubules, Mice, Erythroblast, Cell polarity, medicine, Animals, Erythropoiesis, Cells, Cultured, Research Articles, Actin, Cell Nucleus, Cell Polarity, Biological Transport, Cell Biology, Cell biology, Mice, Inbred C57BL, Cell nucleus, medicine.anatomical_structure, Phosphatidylinositol 3-Kinase, Nucleus, Microtubule-Organizing Center
Abstract

Enucleation, the final step in terminal differentiation of mammalian red blood cells, is an essential process in which the nucleus surrounded by the plasma membrane is budded off from the erythroblast to form a reticulocyte. Most molecular events in enucleation remain unclear. Here we show that enucleation requires establishment of cell polarization that is regulated by the microtubule-dependent local activation of phosphoinositide 3-kinase (PI3K). When the nucleus becomes displaced to one side of the cell, actin becomes restricted to the other side, where dynamic cytoplasmic contractions generate pressure that pushes the viscoelastic nucleus through a narrow constriction in the cell surface, forming a bud. The PI3K products PtdIns(3,4)P2 and PtdIns(3,4,5)P3 are highly localized at the cytoplasmic side of the plasma membrane. PI3K inhibition caused impaired cell polarization, leading to a severe delay in enucleation. Depolymerization of microtubules reduced PI3K activity, resulting in impaired cell polarization and enucleation. We propose that enucleation is regulated by microtubules and PI3K signaling in a manner mechanistically similar to directed cell locomotion.

Published
2012

16. Intralaboratory validation of four in vitro assays for the prediction of the skin sensitizing potential of chemicals

Author

Christoph Jan Wruck, Susanne N. Kolle, Christina Pachel, Caroline Bauch, Benjamin Wiench, Robert Landsiedel, Tzutzuy Ramirez, Bennard van Ravenzwaay, and Eric Fabian

Subjects
Animal Testing Alternatives, Response Elements, Toxicology, medicine.disease_cause, Sensitivity and Specificity, Antioxidants, Cell Line, Allergen, medicine, Humans, Allergic contact dermatitis, Reporter gene, Intralaboratory, Local lymph node assay, business.industry, In vitro toxicology, Reproducibility of Results, Dendritic Cells, General Medicine, Dendritic cell, Allergens, Skin Irritancy Tests, medicine.disease, HaCaT, Dermatitis, Allergic Contact, Immunology, Peptides, business
Abstract

Allergic contact dermatitis is induced by repeated skin contact with an allergen. Assessment of the skin sensitizing potential of chemicals, agrochemicals, and especially cosmetic ingredients is currently performed with the use of animals. Animal welfare and EU legislation demand animal-free alternatives reflected in a testing and marketing ban for cosmetic ingredients beginning in 2013. The underlying mechanisms of induction and elicitation of skin sensitization are complex and a chemical needs to comply several properties being skin sensitizing. To account for the multitude of events in the induction of skin sensitization an in vitro test system will consist of a battery of various tests. Currently, we performed intralaboratory validations of four assays addressing three different events during induction of skin sensitization. (1) The Direct Peptide Reactivity Assay (DPRA) according to Gerberick and co-workers ( Gerberick et al., 2004 ) using synthetic peptides and HPLC analysis. (2) Two dendritic cell activation assays based on the dendritic cell like cell lines U-937 and THP-1 and flow cytometric detection of the maturation markers CD54 and/or CD86 ( Ashikaga et al., 2006 , Python et al., 2007 , Sakaguchi et al., 2006 ). (3) Antioxidant response element (ARE)-dependent gene activity in a HaCaT reporter gene cell line ( Emter et al., 2010 ). We present the results of our intralaboratory validation of these assays with 23 substances of known sensitizing potential. The sensitivity, specificity, and accuracy of the individual tests were obtained by comparison to human epidemiological data as well as to data from animal tests such as the local lymph node assay.

Published
2011

17. Sodium arsenite modulates histone acetylation, histone deacetylase activity and HMGN protein dynamics in human cells

Author

Helga Stopper, Tzutzuy Ramirez, Robert Hock, and Jan Brocher

Subjects
Arsenites, Biology, Hydroxamic Acids, Models, Biological, Histone Deacetylases, Cell Line, Histones, Cell Line, Tumor, Histone H2A, Genetics, Humans, Histone code, Genetics (clinical), Protein Synthesis Inhibitors, Histone deacetylase 5, Cell Death, HDAC11, Histone deacetylase 2, DNA Methylation, Sodium Compounds, Molecular biology, Chromatin, Nucleosomes, Microscopy, Fluorescence, Histone methyltransferase, HMGN Proteins, Histone deacetylase, Histone deacetylase activity
Abstract

Extensive epidemiological data indicate that inorganic arsenic is associated with several types of human cancer. Nevertheless, the underlying mechanisms are poorly understood. Among its mode of action are the alterations on DNA methylation, which provoke aberrant gene expression. However, beyond DNA methylation, little is known about arsenic's effects on chromatin. In this study, we investigated the effects of sodium arsenite (NaAsO(2)) on global histone modifications and nucleosome-associated proteins. Our findings revealed that NaAsO(2) exposure significantly increases global histone acetylation. This effect was related to the inhibition of histone deacetylase (HDAC) activity because NaAsO(2) was able to inhibit HDACs comparable to the well-known HDAC inhibitor trichostatin A (TSA). Furthermore, analyses of the dynamic properties of the nucleosome-associated high mobility group N proteins demonstrate that NaAsO(2) elevates their mobility. Thus, our data suggest that NaAsO(2) induces chromatin opening by histone hyperacetylation due to HDAC inhibition and increase of the mobility of nucleosome-associated proteins. As the chromatin compaction is crucial for the regulation of gene expression as well as for genome stability, we propose that chromatin opening by NaAsO(2) may play a significant role to impart its genotoxic effects.

Published
2007

18. A multi-laboratory evaluation of microelectrode array-based measurements of neural network activity for acute neurotoxicity testing

Author

Timothy J. Shafer, A. Vassallo, Sergio Martinoia, Tzutzuy Ramirez, Timo Weisschu, Enrico Defranchi, Maurice Whelan, Anna Bal-Price, Michela Chiappalone, Antonio Novellino, Andrew F.M. Johnstone, Robert Landsiedel, Ricardo De Camargos Lopes, Taina Palosaari, Bibiana Scelfo, and Cina M. Mack

Subjects
0301 basic medicine, Insecticides, Neurotoxins, Drug Evaluation, Preclinical, Pharmacology, Toxicology, 03 medical and health sciences, chemistry.chemical_compound, Inhibitory Concentration 50, 0302 clinical medicine, Extracellular, medicine, Animals, Cells, Cultured, Microelectrode array, Neurons, Neuroscience (all), Artificial neural network, Cross-laboratory comparison, Screening, General Neuroscience, Organophosphate, Neurotoxicity, Domoic acid, Multielectrode array, medicine.disease, Rats, 030104 developmental biology, Deltamethrin, chemistry, Microelectrodes, 030217 neurology & neurosurgery, Dimethyl phthalate
Abstract

There is a need for methods to screen and prioritize chemicals for potential hazard, including neurotoxicity. Microelectrode array (MEA) systems enable simultaneous extracellular recordings from multiple sites in neural networks in real time and thereby provide a robust measure of network activity. In this study, spontaneous activity measurements from primary neuronal cultures treated with three neurotoxic or three non-neurotoxic compounds was evaluated across four different laboratories. All four individual laboratories correctly identifed the neurotoxic compounds chlorpyrifos oxon (an organophosphate insecticide), deltamethrin (a pyrethroid insecticide) and domoic acid (an excitotoxicant). By contrast, the other three compounds (glyphosate, dimethyl phthalate and acetaminophen) considered to be non-neurotoxic ("negative controls"), produced only sporadic changes of the measured parameters. The results were consistent across the different laboratories, as all three neurotoxic compounds caused concentration-dependent inhibition of mean firing rate (MFR). Further, MFR appeared to be the most sensitive parameter for effects of neurotoxic compounds, as changes in electrical activity measured by mean frequency intra burst (MFIB), and mean burst duration (MBD) did not result in concentration-response relationships for some of the positive compounds, or required higher concentrations for an effect to be observed. However, greater numbers of compounds need to be tested to confirm this. The results obtained indicate that measurement of spontaneous electrical activity using MEAs provides a robust assessment of compound effects on neural network function.

Published
2015

19. Knowledge sharing to facilitate regulatory decision-making in regard to alternatives to animal testing: Report of an EPAA workshop

Author

Irene Manou, Sandra De Jonghe, Annette Mehling, Jan van Benthem, Sonja Beken, Renate Weissenhorn, Tzutzuy Ramirez, Magda Chlebus, Laura H. Rossi, Kerstin Reisinger, Jan Willem van der Laan, Graham Ellis, Claudius Griesinger, and Ursula G. Sauer

Subjects
Knowledge management, Status quo, business.industry, media_common.quotation_subject, International Cooperation, Decision Making, Alternatives to animal testing, Harmonization, General Medicine, Cosmetics, Intellectual property, Toxicology, Animal Testing Alternatives, Test (assessment), Knowledge sharing, Data sharing, General partnership, Toxicity Tests, Animals, Industry, Operations management, Business, media_common
Abstract

The European Partnership for Alternative Approaches to Animal Testing (EPAA) convened a workshop Knowledge sharing to facilitate regulatory decision-making. Fifty invited participants from the European Commission, national and European agencies and bodies, different industry sectors (chemicals, cosmetics, fragrances, pharmaceuticals, vaccines), and animal protection organizations attended the workshop. Four case studies exemplarily revealed which procedures are in place to obtain regulatory acceptance of new test methods in different sectors. Breakout groups discussed the status quo identifying the following facilitators for regulatory acceptance of alternatives to animal testing: Networking and communication (including cross-sector collaboration, international cooperation and harmonization); involvement of regulatory agencies from the initial stages of test method development on; certainty on prerequisites for test method acceptance including the establishment of specific criteria for regulatory acceptance. Data sharing and intellectual property issues affect many aspects of test method development, validation and regulatory acceptance. In principle, all activities should address replacement, reduction and refinement methods (albeit animal testing is generally prohibited in the cosmetics sector). Provision of financial resources and education support all activities aiming at facilitating the acceptance and use of alternatives to animal testing. Overall, workshop participants recommended building confidence in new methodologies by applying and gaining experience with them.

Published
2015

20. Neuronal cell models and methods simulating nervous system function to screen for neurotoxic compounds

Author

Christoph van Thriel, Denise Schäfer, Tzutzuy Ramirez-Hernandez, Marcel Leist, Julia Sisnaiske, Robert Landsiedel, and Vanessa Hausherr

Subjects
Nervous system, Cellular and Molecular Neuroscience, medicine.anatomical_structure, Developmental Neuroscience, nervous system, ddc:570, Cell, medicine, Biology, Toxicology, Neuroscience, Function (biology)
Abstract

There is a great variety of neurotoxins with many different modes of actions. Some of them induce cell death; others interfere with neurite growth or disturb neuronal signal processing and transmission. These effects are usually examined with animal testing that is expensive, time consuming and controversial with respect to animal welfare. To date, several available neuronal cell models have been developed with the focus to replace animal testing. These models could emulate specific functions of the nervous system, however, they are still barely characterized and the emulated functions are often limited. Therefore, the aim of our study is to establish and refine a cell based test battery to identify neurotoxic effects based on: neuronal viability, structure and function. For this purpose, embryonic stem cell derived neurons (ESCN) were compared with primary rat and mouse cortical neurons. Then, model neurotoxic test substances were tested in these models and the changes in cell viability and neuronal cell structure (neurite outgrowth) were analyzed in all cell types. In addition, the neuronal function was analyzed using live cell calcium imaging (Ca-Im) to identify effects of model compounds on neurotransmitter and voltage induced calcium responses. While primary cortical neurons of both rodent species only respond to glutamate and GABA stem cell derived neurons formed a more heterogeneous population of neurons responding to a broad variety of neurotransmitter stimuli. With respect to the effects of tri-ortho-cresyl phosphate (ToCP) we found ESCNs being less sensitive than primary neurons. On the other hand we found similar effects after exposure to acrylamide in all cell systems. The ToCP results indicate that glu-GABA-only cells might be more sensitive for some compounds. Currently we are evaluating the added value of the application of Ca-Imaging as part of a testing battery together with micro-electrode array (MEA) to assess a) the neurotoxic potential and b) to determine the mode of action of test substances considering single cells and networks of cell populations of different heterogeneities. published

Published
2015

21. The application of toxicokinetics in an animal-free risk assessment

Author

Barbara Birk, Eric Fabian, Christian Haase, Bennard van Ravenzwaay, Tzutzuy Ramirez, Caroline Gomes, Robert Landsiedel, and Rene Zbranek

Subjects
business.industry, Environmental health, Toxicokinetics, Medicine, General Medicine, Toxicology, Risk assessment, business
Published
2017

22. Assessing skin sensitization hazard in mice and men using non-animal test methods

Author

Naveed Honarvar, Takao Ashikaga, Masaaki Miyazawa, Petra S. Kern, Hitoshi Sakaguchi, Annette Mehling, Katharina Guth, Andreas Natsch, Joanna Jaworska, Daniel Urbisch, Roger Emter, Frank Gerberick, Susanne N. Kolle, Robert Landsiedel, and Tzutzuy Ramirez

Subjects
Oncology, Hazard (logic), medicine.medical_specialty, h-CLAT, Databases, Factual, Toxicology, Animal Testing Alternatives, Cell Line, Database, Integrated testing strategy (ITS), Mice, Internal medicine, Adverse Outcome Pathway, medicine, Animals, Humans, Operations management, (modified) MUSST, Allergic contact dermatitis, Sensitization, Skin, business.industry, Local lymph node assay, Allergic contact dermatitis (ACD), Skin sensitization, Adverse outcome pathway (AOP), General Medicine, U937 Cells, medicine.disease, Test (assessment), medicine.anatomical_structure, DPRA, LuSens, KeratinoSens™, Dermatologic Agents, business, Risk assessment
Abstract

Sensitization, the prerequisite event in the development of allergic contact dermatitis, is a key parameter in both hazard and risk assessments. The pathways involved have recently been formally described in the OECD adverse outcome pathway (AOP) for skin sensitization. One single non-animal test method will not be sufficient to fully address this AOP and in many cases the use of a battery of tests will be necessary. A number of methods are now fully developed and validated. In order to facilitate acceptance of these methods by both the regulatory and scientific communities, results of the single test methods (DPRA, KeratinoSens™, LuSens, h-CLAT, (m)MUSST) as well for a the simple ‘2 out of 3’ ITS for 213 substances have been compiled and qualitatively compared to both animal and human data. The dataset was also used to define different mechanistic domains by probable protein-binding mechanisms. In general, the non-animal test methods exhibited good predictivities when compared to local lymph node assay (LLNA) data and even better predictivities when compared to human data. The ‘2 out of 3’ prediction model achieved accuracies of 90% or 79% when compared to human or LLNA data, respectively and thereby even slightly exceeded that of the LLNA.

Published
2014

23. Effect of estrogenic binary mixtures in the yeast estrogen screen (YES)

Author

Martina Dammann, Bennard van Ravenzwaay, Andreas Buechse, Claudia Woitkowiak, Tzutzuy Ramirez, and Stephanie Melching-Kollmuß

Subjects
Bisphenol A, medicine.medical_specialty, medicine.drug_class, Estrogen receptor, Genistein, Saccharomyces cerevisiae, Endocrine Disruptors, Toxicology, Models, Biological, chemistry.chemical_compound, Trenbolone, Phenols, Internal medicine, medicine, Benzhydryl Compounds, Receptor, Mode of action, Dose-Response Relationship, Drug, General Medicine, Endocrinology, chemistry, Biochemistry, Receptors, Estrogen, Estrogen, Trenbolone Acetate, medicine.drug, Hormone
Abstract

Endocrine disrupting compounds (EDCs) of natural or synthetic origin can interfere with the balance of the hormonal system, either by altering hormone production, secretion, transport, or their binding and consequently lead to an adverse outcome in intact animals. An important aspect is the prediction of effects of combined exposure to two or more EDCs at the same time. The yeast estrogen assay (YES) is a broadly used method to assess estrogenic potential of chemicals. Besides exhibiting good predictivity to identify compounds which interfere with the estrogen receptor, it is easy to handle, rapid and therefore allows screening of a large number of single compounds and varying mixtures. Herein, we applied the YES assay to determine the potential combination effects of binary mixtures of two estrogenic compounds, bisphenol A and genistein, as well as one classical androgen that in vitro also exhibits estrogenic activity, trenbolone. In addition to generating data from combined exposure, we fitted these to a four-parametric logistic dose–response model. As all compounds tested share the same mode of action dose additivity was expected. To assess this, the Loewe model was utilized. Deviations between the Loewe additivity model and the observed responses were always small and global tests based on the whole dose–response data set indicated in general a good fit of the Loewe additivity model. At low concentrations concentration additivity was observed, while at high concentrations, the observed effect was lower than additivity, most likely reflecting receptor saturation. In conclusion, our results suggest that binary combinations of genistein, bisphenol A and trenbolone in the YES assay do not deviate from expected additivity.

Published
2014

24. Green toxicology and chemistry: Hand in glove

Author

Robert Landsiedel, Hennicke Kamp, Bennard van Ravenzwaay, and Tzutzuy Ramirez

Subjects
Toxicology, Chemistry, General Medicine, Chemistry (relationship)
Published
2016

26. Vinclozolin: a case study on the identification of endocrine active substances in the past and a future perspective

Author

Tzutzuy Ramirez, Hennicke Kamp, Bennard van Ravenzwaay, and Susanne N. Kolle

Subjects
medicine.medical_specialty, Developmental toxicity, Biology, Pharmacology, Endocrine Disruptors, Toxicology, History, 21st Century, Flutamide, chemistry.chemical_compound, Metabolomics, Internal medicine, Toxicity Tests, medicine, Metabolome, Endocrine system, Animals, Humans, Vinclozolin, Oxazoles, Biotransformation, Toxicology testing, Androgen Antagonists, General Medicine, History, 20th Century, Androgen receptor, Endocrinology, chemistry
Abstract

In the late 1980s vinclozolin was tested for prenatal developmental toxicity in rats for registration purposes in USA. At 1000 mg/kg bw, 95% of all fetuses were female upon visual inspection (ano-genital distance determination). Anti-androgenic effects (AA) were also noted in a subsequent 2-generation study. These findings triggered mechanistic investigations at BASF and at US-EPA. Results published by the latter were the starting point of the endocrine disruption (ED) discussion in the 1990s. AA effects of vinclozolin are mediated by two metabolites, which have an antagonistic effect on the androgen receptor. Currently, determination of ED has become a major end-point in toxicology testing and the US-EPA has set up an elaborated testing paradigm to fulfill this requirement. Future screening for ED can be improved making use of new technologies. ED modes of action can be determined by three alternative (3R) methods. Steroid synthesis in H295R cells (1), androgen-receptor binding in modified yeast (2) and metabolomics (3). Using vinclozolin as a case study, results indicate: (1) an effect on steroid synthesis in vitro, (2) an antagonistic effect on the androgen receptor and (3) that the metabolome profile of vinclozolin is similar to that of other receptor mediated anti-androgens (e.g. flutamide).

Published
2012

27. Non-animal test methods for predicting skin sensitization potentials

Author

Annette Mehling, Tove Eriksson, Tzutzuy Ramirez, Tobias Eltze, Robert Landsiedel, Susanne N. Kolle, Bennard van Ravenzwaay, and Wera Teubner

Subjects
Health, Toxicology and Mutagenesis, Population, Alternatives to animal testing, Cell Culture Techniques, Toxicology, Animal Testing Alternatives, Models, Biological, Risk Assessment, Risk Factors, Medicine, Animals, Humans, Computer Simulation, Animal testing, education, Sensitization, Cells, Cultured, Skin, education.field_of_study, business.industry, Skin sensitization, Skin Irritancy Tests, General Medicine, Review article, medicine.anatomical_structure, Gene Expression Regulation, Animal Testing Alternative, Dermatitis, Allergic Contact, Models, Animal, Biochemical engineering, business
Abstract

Contact allergies are complex diseases, and it is estimated that 15-20 % of the general population suffers from contact allergy, with increasing prevalence. Evaluation of the sensitization potential of a substance is usually carried out in animal models. Nowadays, there is much interest in reducing and ultimately replacing current animal tests. Furthermore, as of 2013, the EU has posed a ban on animal testing of cosmetic ingredients that includes skin sensitization. Therefore, predictive and robust in vitro tests are urgently needed. In order to establish alternatives to animal testing, the in vitro tests must mimic the very complex interactions between the sensitizing chemical and the different parts of the immune system. This review article summarizes recent efforts to develop in vitro tests for predicting skin sensitizers. Cell-based assays, in chemico methods and, to a lesser extent, in silico methods are presented together with a discussion of their current status. With considerable progress having been achieved during the last years, the rationale today is that data from different non-animal test methods will have to be combined in order to obtain reliable hazard and potency information on potential skin sensitizers.

Published
2012

28. Feasibility assessment of micro-electrode chip assay as a method of detecting neurotoxicity in vitro

Author

Tzutzuy Ramirez, Sandra Vogel, Antonio Novellino, Maurice Whelan, Robert Landsiedel, Ben van Ravenzwaay, and Enrico Defranchi

Subjects
Nervous system, Biomedical Engineering, Biophysics, Neuroscience (miscellaneous), Neurotoxicity, Multielectrode array, Biology, medicine.disease, chemical test, Electrophysiology, Microelectrode, medicine.anatomical_structure, micro-electrode array, In vivo, Peripheral nervous system, neurotoxicity, medicine, Biological neural network, neuronal networks, Neuroscience, in vitro assay, Biomedical engineering, Original Research
Abstract

Detection and characterization of chemically-induced toxic effects in the nervous system represent a major challenge for registration and assessment of chemicals. So far, no in vitro method for evaluating the neurotoxic hazard has yet been validated and accepted for regulatory purpose. In vivo, neurotoxicological assessments exploit the fact that the activity of neurons in the central and peripheral nervous system has functional consequences. The microelectrode array (MEA) assay consists of a culture chamber into which an integrated array of microelectrodes is capable of measuring extracellular electrophysiology (spikes and bursts) from electro-active tissues. A wide variety of electrically excitable biological tissues may be placed onto the chips including primary cultures of nervous system tissue. Recordings from this type of in vitro cultured system are non invasive, give label free evaluations and provide a higher throughput than conventional electrophysiological techniques. In this study 20 blinded substances were tested in a dose-response curve on embryonic rat cortical neuronal networks on a MEA for their toxicity. The experimental procedure consisted of evaluating the firing activity (spiking rate) and modification/reduction in response to chemical administration. Native/reference activity, 30 minutes of activity recording per dilution, plus the reversibility/recovery points (after 24 hours) were recorded. The IC50 ranges were indicated. The preliminary data, using a set of chemicals with different mode-of-actions (13 known to be neurotoxic, 2 non neuroactive and not toxic and 5 not neuroactive but toxic) show good predictivity (sensitivity: 0.69; specificity: 1.0; accuracy: 0.80). Thus, the MEA with a neuronal network has the potency to become a powerful tool to evaluate the neurotoxicity of substances in vitro., JRC.DG.I.6-Systems toxicology

Published
2011

29. Histone deacetylase 2 is required for chromatin condensation and subsequent enucleation of cultured mouse fetal erythroblasts

Author

Maki Murata-Hori, Harvey F. Lodish, Victor Yeh, Peng Ji, and Tzutzuy Ramirez

Subjects
Male, Erythroblasts, Enucleation, Blotting, Western, Histone Deacetylase 2, Editorials and Perspectives, Apoptosis, Biology, Hydroxamic Acids, Histones, Mice, Fetus, Pregnancy, Histone H2A, medicine, Animals, Erythropoiesis, Cells, Cultured, Cell Proliferation, Cell Nucleus, Histone deacetylase 5, Microscopy, Confocal, HDAC11, Histone deacetylase 2, Valproic Acid, Acetylation, Cell Differentiation, Hematology, Molecular biology, Chromatin, Histone Deacetylase Inhibitors, Mice, Inbred C57BL, Trichostatin A, Liver, Female, RNA Interference, Histone deacetylase, medicine.drug
Abstract

Background During the final stages of differentiation of mammalian erythroid cells, the chromatin is condensed and enucleated. We previously reported that Rac GTPases and their downstream target, mammalian homolog of Drosophila diaphanous 2 (mDia2), are required for enucleation of in vitro cultured mouse fetal liver erythroblasts. However, it is not clear how chromatin condensation is achieved and whether it is required for enucleation.Design and Methods Mouse fetal liver erythroblasts were purified from embryonic day 14.5 pregnant mice and cultured in erythropoietin-containing medium. Enucleation was determined by flow-cytometry based analysis after treatment with histone deacetylase inhibitors or infection with lentiviral short harirpin RNA.Results We showed that histone deacetylases play critical roles in chromatin condensation and enucleation in cultured mouse fetal liver erythroblasts. Enzymatic inhibition of histone deacetylases by trichostatin A or valproic acid prior to the start of enucleation blocked chromatin condensation, contractile actin ring formation and enucleation. We further demonstrated that histone deacetylases 1, 2, 3 and 5 are highly expressed in mouse fetal erythroblasts. Short hairpin RNA down-regulation of histone deacetylase 2, but not of the other histone deacetylases, phenotypically mimicked the effect of trichostatin A or valproic acid treatment, causing significant inhibition of chromatin condensation and enucleation. Importantly, knock-down of histone deacetylase 2 did not affect erythroblast proliferation, differentiation, or apoptosis.Conclusions These results identify histone deacetylase 2 as an important regulator, mediating chromatin condensation and enucleation in the final stages of mammalian erythropoiesis.

Published
2010

30. 10 years of metabolomics research: The importance of quality control

Author

W. Mellert, B. van Ravenzwaay, G. Krennrich, H. Kamp, V. Strauss, R. Looser, Michael Manfred Herold, Alexander Strigun, Erik Peter, Tzutzuy Ramirez, M. Spitzer, T. Walk, E. Fabian, Markus Frericks, and G. Montoya

Subjects
Metabolomics, business.industry, media_common.quotation_subject, Control (management), Medicine, Quality (business), General Medicine, Toxicology, business, Biotechnology, media_common
Published
2015

31. Validation of the yeast estrogen and yeast androgen screens for endocrine active substances: Inter-laboratory ring trial

Author

Tzutzuy Ramirez, Christine Schönlau, Markus Hecker, Martina Jäger, Günter Vollmer, Eric Higley, Hans-Albrecht Hüner, Susanne Broschk, Claudia Woitkowiak, Ben van Ravenzwaay, Robert Landsiedel, Oliver Zierau, Albrecht Poth, and Henner Hollert

Subjects
Biochemistry, medicine.drug_class, Estrogen, medicine, Endocrine system, General Medicine, Biology, Inter-laboratory, Pharmacology, Toxicology, Androgen, Ring (chemistry), Yeast
Published
2013

35. Identification of liver toxicity by combining in vitro cell systems and metabolomics

Author

Tzutzuy Ramirez, Dörthe Ahlbory-Dieker, Elie Fux, Hennicke Kamp, Tilmann Walk, Silvia Wagner, Ralf Looser, and Bennard van Ravenzwaay

Subjects
medicine.anatomical_structure, Metabolomics, Liver toxicity, Cell, medicine, Identification (biology), General Medicine, Computational biology, Biology, Toxicology, Bioinformatics, In vitro
Published
2012

36. In vitro test battery to predict skin sensitizers based on key events of sensitization

Author

Tzutzuy Ramirez, Annette Mehling, Caroline Bauch, Bennard van Ravenzwaay, Robert Landsiedel, Susanne N. Kolle, and Tobias Eltze

Subjects
Battery (electricity), medicine.anatomical_structure, In vitro test, business.industry, medicine, Key (cryptography), General Medicine, Toxicology, business, Neuroscience, Sensitization
Published
2012

38. A testing strategy for the identification of endocrine disruptors

Author

Roland Flick, Tzutzuy Ramirez, Bennard van Ravenzwaay, Volker Strauss, Susanne N. Kolle, Roland Buesen, and Hennicke Kamp

Subjects
Test strategy, Endocrine system, Identification (biology), General Medicine, Computational biology, Biology, Toxicology
Published
2012

40. LuSens: A keratinocyte based ARE reporter gene assay for use in integrated testing strategies for skin sensitization hazard identification

Author

Susanne N. Kolle, Robert Landsiedel, Christoph Jan Wruck, Annette Mehling, Daniel Urbisch, Wera Teubner, Tobias Eltze, Ben van Ravenzwaay, Tzutzuy Ramirez, and Alexandra Aumann

Subjects
Keratinocytes, Antioxidant response element (ARE), Hazard analysis, Biology, Toxicology, Keratinocyte activation, Cell Line, In vitro, Genes, Reporter, Adverse Outcome Pathway, medicine, Animals, Humans, Allergic contact dermatitis, Gene, Reporter gene, Adverse outcome pathway (AOP), General Medicine, Skin Irritancy Tests, medicine.disease, Antioxidant Response Elements, Rats, medicine.anatomical_structure, Cell culture, Immunology, Keratinocyte, Skin sensitization
Abstract

Allergic contact dermatitis can develop following repeated exposure to allergenic substances. To date, hazard identification is still based on animal studies as non-animal alternatives have not yet gained global regulatory acceptance. Several non-animal methods addressing key-steps of the adverse outcome pathway (OECD, 2012) will most likely be needed to fully address this effect. Among the initial cellular events is the activation of keratinocytes and currently only one method, the KeratinoSens™, has been formally validated to address this event. In this study, a further method, the LuSens assay, that uses a human keratinocyte cell line harbouring a reporter gene construct composed of the antioxidant response element (ARE) of the rat NADPH:quinone oxidoreductase 1 gene and the luciferase gene. The assay was validated in house using a selection of 74 substances which included the LLNA performance standards. The predictivity of the LuSens assay for skin sensitization hazard identification was comparable to other non-animal methods, in particular to the KeratinoSens™. When used as part of a testing battery based on the OECD adverse outcome pathway for skin sensitization, a combination of the LuSens assay, the DPRA and a dendritic cell line activation test attained predictivities similar to that of the LLNA.

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41. State-of-the-Art of 3D Cultures (Organs-on-a-Chip) in Safety Testing and Pathophysiology

Author

Marc Lübberstedt, Jan Hansmann, Marcel Leist, Jens M. Kelm, Fozia Noor, John W. Haycock, Barbara Rothen-Rutishauser, Mardas Daneshian, Lisa Hoelting, Bart De Wever, Kerstin Reisinger, Helena T. Hogberg, Christian Pellevoisin, Tzutzuy Ramirez, Natalie Alépée, Thomas Hartung, Dirk Petersohn, Katrin Zeilinger, Alan M. Goldberg, Marie Gabriele Zurich, Emily A. McVey, Suzanne Kadereit, Anthony Bahinski, Ellen Fritsche, Uwe Pfannenbecker, Robert Landsiedel, and Monika Schäfer-Korting

Subjects
Pharmacology, Structure (mathematical logic), 0303 health sciences, Pathology, medicine.medical_specialty, Drug discovery, 3d model, General Medicine, Biology, Organ-on-a-chip, 3. Good health, Variety (cybernetics), 03 medical and health sciences, Medical Laboratory Technology, 0302 clinical medicine, Risk analysis (engineering), Drug development, 030220 oncology & carcinogenesis, ddc:570, medicine, organ-on-a-chip, organotypic, 3D models, ddc:610, State (computer science), Safety testing, 030304 developmental biology
Abstract

Integrated approaches using different in vitro methods in combination with bioinformatics can (i) increase the success rate and speed of drug development; (ii) improve the accuracy of toxicological risk assessment; and (iii) increase our understanding of disease. Three-dimensional (3D) cell culture models are important building blocks of this strategy which has emerged during the last years. The majority of these models are organotypic, i.e., they aim to reproduce major functions of an organ or organ system. This implies in many cases that more than one cell type forms the 3D structure, and often matrix elements play an important role. This review summarizes the state of the art concerning commonalities of the different models. For instance, the theory of mass transport/metabolite exchange in 3D systems and the special analytical requirements for test endpoints in organotypic cultures are discussed in detail. In the next part, 3D model systems for selected organs – liver, lung, skin, brain – are presented and characterized in dedicated chapters. Also, 3D approaches to the modeling of tumors are presented and discussed. All chapters give a historical background, illustrate the large variety of approaches, and highlight up- and downsides as well as specific requirements. Moreover, they refer to the application in disease modeling, drug discovery and safety assessment. Finally, consensus recommendations indicate a roadmap for the successful implementation of 3D models in routine screening. It is expected that the use of such models will accelerate progress by reducing error rates and wrong predictions from compound testing.

42. Metabolomics in Toxicology and Preclinical Research

Author

Mark Seymour, Bennard van Ravenzwaay, Harald Jungnickel, Elwin Verheij, Steven M. Fischer, Joachim Heuer, Mardas Daneshian, Beth Donley, Muireann Coen, Eric Fabian, Malcolm R. Clench, Silvia Wagner, Hennicke Kamp, Nigel Skinner, Tzutzuy Ramirez, Helena T. Hogberg, Bjoern Riefke, Hector C. Keun, Eckart Krupp, Marcel Leist, Claude Guillou, Thomas Hartung, Frédéric Y. Bois, G. Krennrich, Erik Peter, Lena Smirnova, Drew R. Ekman, Fozia Noor, Andreas Luch, and Medical Research Council (MRC)

Subjects
regulatory toxicology, BIOMARKERS, Context (language use), Biology, Research & Experimental Medicine, METABOLISM, Appropriate use, Toxicology, Models, Biological, Article, CELL-CULTURE PRACTICE, 03 medical and health sciences, Preclinical research, Human health, Metabolomics, FOOD, Predictive Value of Tests, 07 Agricultural and Veterinary Sciences, Toxicity Tests, Animals, Humans, preclinical research, 11 Medical and Health Sciences, 030304 developmental biology, Pharmacology, 0303 health sciences, Systems toxicology, Science & Technology, 030302 biochemistry & molecular biology, SYSTEMS TOXICOLOGY, Reproducibility of Results, General Medicine, IN-VITRO, THOUGHT, Omics, DEVELOPMENTAL TOXICITY, 3. Good health, Medical Laboratory Technology, Medicine, Research & Experimental, MODEL SYSTEM, Life Sciences & Biomedicine, Target organ, TASK-FORCE
Abstract

Metabolomics, the comprehensive analysis of metabolites in a biological system, provides detailed information about the biochemical/physiological status of a biological system, and about the changes caused by chemicals. Metabolomics analysis is used in many fields, ranging from the analysis of the physiological status of genetically modified organisms in safety science to the evaluation of human health conditions. In toxicology, metabolomics is the -omics discipline that is most closely related to classical knowledge of disturbed biochemical pathways. It allows rapid identification of the potential targets of a hazardous compound. It can give information on target organs and often can help to improve our understanding regarding the mode-of-action of a given compound. Such insights aid the discovery of biomarkers that either indicate pathophysiological conditions or help the monitoring of the efficacy of drug therapies. The first toxicological applications of metabolomics were for mechanistic research, but different ways to use the technology in a regulatory context are being explored. Ideally, further progress in that direction will position the metabolomics approach to address the challenges of toxicology of the 21st century. To address these issues, scientists from academia, industry, and regulatory bodies came together in a workshop to discuss the current status of applied metabolomics and its potential in the safety assessment of compounds. We report here on the conclusions of three working groups addressing questions regarding 1) metabolomics for in vitro studies 2) the appropriate use of metabolomics in systems toxicology, and 3) use of metabolomics in a regulatory context.

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