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  • New approach to predict photoallergic potentials of chemicals based on murine local lymph node assay.

New approach to predict photoallergic potentials of chemicals based on murine local lymph node assay.

Journal of applied toxicology : JAT (2018-05-26)
Yosuke Maeda, Haruka Hirosaki, Hidenori Yamanaka, Masahiro Takeyoshi
ABSTRACT

Photoallergic dermatitis, caused by pharmaceuticals and other consumer products, is a very important issue in human health. However, S10 guidelines of the International Conference on Harmonization do not recommend the existing prediction methods for photoallergy because of their low predictability in human cases. We applied local lymph node assay (LLNA), a reliable, quantitative skin sensitization prediction test, to develop a new photoallergy prediction method. This method involves a three-step approach: (1) ultraviolet (UV) absorption analysis; (2) determination of no observed adverse effect level for skin phototoxicity based on LLNA; and (3) photoallergy evaluation based on LLNA. Photoallergic potential of chemicals was evaluated by comparing lymph node cell proliferation among groups treated with chemicals with minimal effect levels of skin sensitization and skin phototoxicity under UV irradiation (UV+) or non-UV irradiation (UV-). A case showing significant difference (P < .05) in lymph node cell proliferation rates between UV- and UV+ groups was considered positive for photoallergic reaction. After testing 13 chemicals, seven human photoallergens tested positive and the other six, with no evidence of causing photoallergic dermatitis or UV absorption, tested negative. Among these chemicals, both doxycycline hydrochloride and minocycline hydrochloride were tetracycline antibiotics with different photoallergic properties, and the new method clearly distinguished between the photoallergic properties of these chemicals. These findings suggested high predictability of our method; therefore, it is promising and effective in predicting human photoallergens.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
21-Hydroxyprogesterone, ≥97% (HPLC)
Sigma-Aldrich
2-Ethylhexyl methacrylate, 98%, contains ~50 ppm monomethyl ether hydroquinone as stabilizer