Reactivity of cosmetic UV filters towards skin proteins: Model studies with Boc‐lysine, Boc‐Gly‐Phe‐Gly‐Lys‐ OH , BSA and gelatin

Synopsis Objective Organic UV filters are used as active ingredients in most sunscreens and also in a variety of daily care products. Their good (photo) stability is of special interest to guarantee protective function and to prevent interactions with the human skin. Due to the mostly electrophilic character of the UV filters, reactions with nucleophilic protein moieties like lysine side chains are conceivable. Prior studies showed that the UV filters octocrylene ( OCR ), butyl methoxydibenzoylmethane ( BM ‐ DBM ), ethylhexyl salicylate ( EHS ), ethylhexyl methoxycinnamate ( EHMC ), benzophenone‐3 ( BP ‐3), ethylhexyl triazone ( EHT ) and dibenzoylmethane ( DBM ) were able to covalently bind to an HPTLC amino phase and the amino acid models ethanolamine and butylamine after slightly heating and/or radiation. Methods Boc‐protected lysine, the tetrapeptide Boc‐Gly‐Phe‐Gly‐Lys‐ OH , bovine serum albumin ( BSA ) and porcine gelatin were used as more complex models to determine the reactivity of the mentioned UV filters towards skin proteins under thermal or UV irradiation conditions. Results After gentle heating at 37°C, benzophenone imines were identified as reaction products of BP ‐3 and OCR with Boc‐lysine and the tetrapeptide, whereas DBM and BM ‐ DBM yielded enamines. For EHMC , a Michael‐type reaction occurred, which resulted in addition of Boc‐lysine or the tetrapeptide to the conjugated double bond. Ester aminolysis of EHS and EHT mainly afforded the corresponding amides. Reactions of the UV filters with BSA changed the UV spectrum of BSA , generally associated with an increase of the absorption strength in the UVA or UVB range. For all protein models, the UV filters showed an increasing reactivity in the order EHT < EHMC < EHS < BP ‐3 < OCR < DBM < BM ‐ DBM . Conclusion Especially the UV absorbers BM ‐ DBM , OCR and BP ‐3, which are seen as common allergens or photoallergens, showed a high reactivity towards the different skin protein models. As the formation of protein adducts is recognized as important key element in the induction of skin sensitization, the results of this study can contribute to a better understanding of the underlying chemical mechanisms of such reactions.