Your search keyword '"Teubner W"' showing total 2 results

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

Author

Urbisch D, Honarvar N, Kolle SN, Mehling A, Ramirez T, Teubner W, and Landsiedel R

Subjects

Animals, Butanones toxicity, Chalcones toxicity, Computer Simulation, Cyclohexanones toxicity, Furans toxicity, Humans, Local Lymph Node Assay, Mice, Protein Binding, Pyruvates toxicity, Quantitative Structure-Activity Relationship, Dermatitis, Allergic Contact metabolism, Haptens toxicity, Models, Theoretical, Peptides metabolism

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., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

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

Author

Ramirez T, Mehling A, Kolle SN, Wruck CJ, Teubner W, Eltze T, Aumann A, Urbisch D, van Ravenzwaay B, and Landsiedel R

Subjects

Animals, Cell Line, Humans, Rats, Antioxidant Response Elements genetics, Genes, Reporter, Keratinocytes drug effects, Skin Irritancy Tests methods

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., (Copyright © 2014 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2014