Non-enzymatic glutathione reactivity and in vitro toxicity: A non-animal approach to skin sensitization

Non-enzymatic glutathione reactivity and in vitro toxicity: A non-animal approach to skin sensitization

The development of non-animal methods to predict the potential of chemicals to cause skin sensitization is of great importance. On the basis of many published studies into the underlying chemical mechanisms skin sensitization, the immunological priming which leads to the disease allergic contact der...

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Published in:Toxicology in vitro Vol. 20; no. 2; pp. 239 - 247
Main Authors: Aptula, Aynur O., Patlewicz, Grace, Roberts, David W., Schultz, T.W.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-03-2006
Subjects:
Allergens - chemistry
Allergens - toxicity
Animal Testing Alternatives
Animals
Glutathione
Glutathione - chemistry
In vitro toxicity
Local Lymph Node Assay
Organic Chemicals - chemistry
Organic Chemicals - toxicity
Predictive Value of Tests
Risk Assessment
Skin Irritancy Tests
Skin sensitization
Sulfhydryl Compounds - chemistry
Tetrahymena pyriformis
Tetrahymena pyriformis - drug effects
Skin sensitization
In vitro toxicity
Glutathione
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Summary:The development of non-animal methods to predict the potential of chemicals to cause skin sensitization is of great importance. On the basis of many published studies into the underlying chemical mechanisms skin sensitization, the immunological priming which leads to the disease allergic contact dermatitis, is recognized as a reactive chemistry endpoint. Consequently, the combination of chemical assays with in vitro techniques may provide a useful surrogate to animal testing for skin sensitization. This study attempts to investigate the relationship between skin sensitization assessed in the local lymph node assay (LLNA) initially and a thiol reactivity index based on glutathione (GSH), pEC 50 thiol (EC 50 being defined as the concentration of the test substance which gives 50% depletion of free thiol under standard conditions) in combination with a measure of cytotoxicity (pIGC 50) to Tetrahymena pyriformis (TETRATOX). The pEC 50 thiol values and the pIGC 50 values were determined for twenty-four compounds for which LLNA test data were available. Thiol reactivity was found to discriminate sensitizers from non-sensitizers according to the rule: pEC 50 thiol > −0.55 indicates that the compound will be a skin sensitizer. However, because of metabolic activation a pEC 50 thiol < −0.55 does not necessarily mean that the compound will be a non-sensitizer. Excess toxicity to T. pyriformis (i.e. the extent of toxic potency over that expected by non-polar narcosis) was determined in order to assess biological reactivity. The best discrimination based on excess toxicity in the TETRATOX assay was given by the “rule”: excess toxicity > 0.50 indicates that the compound will be a skin sensitizer. These approaches become more powerful when combined. When taken together, the thiol and TETRATOX assays predict the sensitization potential of 23 of the 24 compounds correctly. α-Hexylcinnamic aldehyde is incorrectly predicted to be a non-sensitizer, whereas LLNA results suggest it may be a weak sensitizer, this inaccuracy being rationalized in terms of its high hydrophobicity. Due to the selectivity of electro(nucleo)philic reactions some sensitizing compounds will not be identified using a single nucleophile such as thiol.
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ISSN:0887-2333
1879-3177
DOI:10.1016/j.tiv.2005.07.003