1. Molecular docking predictions of fragrance binding to human leukocyte antigen molecules.
- Author
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Schutte, Ryan J., Zhang, Xiaojuan, An, Nan, Ostrov, David A., and Vukmanović, Stanislav
- Subjects
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HLA histocompatibility antigens , *MOLECULAR docking , *ANTIGENS , *ODORS , *T cells , *MONOTERPENES , *MOLECULES - Abstract
Background: Over 4000 small chemicals have been identified as allergens capable of inducing skin sensitization. Many sensitizers are hypothesized to act as haptens producing novel antigens, which can be presented to T cells by human leukocyte antigens (HLAs). Recent studies suggest that some chemical allergens use hapten‐independent mechanisms. Objective: To determine whether molecular docking can identify HLA molecules that bind skin‐sensitizing chemical allergens. Methods: Structural models of HLA molecules were used as the basis for molecular docking of 22 chemical allergens. Allergens predicted to bind HLA‐B*57:01 were tested for their ability to stimulate T cells by the use of proliferation and interferon‐gamma enzyme‐linked immunospot assays. Results: Chemical allergens that did not satisfy the criteria for hapten activity in vitro were predicted to bind more strongly to common HLA isoforms than those with known hapten activity. HLA‐B*57:01, which is an HLA allele required for drug hypersensitivity reactions, was predicted to bind several allergens, including benzyl benzoate, benzyl cinnamate, and benzyl salicylate. In in vitro T cell stimulation assays, benzyl salicylate and benzyl cinnamate were found to stimulate T cell responses from HLA‐B*57:01 carriers. Conclusions: These data suggest that small‐molecule skin sensitizers have the potential to interact with HLA, and show that T cell‐based in vitro assays may be used to evaluate the immunogenicity of skin‐sensitizing chemicals. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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