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  • Use of human liver and EpiSkin™ S9 subcellular fractions as a screening assays to compare the in vitro hepatic and dermal metabolism of 47 cosmetics-relevant chemicals.

Use of human liver and EpiSkin™ S9 subcellular fractions as a screening assays to compare the in vitro hepatic and dermal metabolism of 47 cosmetics-relevant chemicals.

Journal of applied toxicology : JAT (2020-01-09)
Joan Eilstein, Sébastien Grégoire, Aurélie Fabre, Eric Arbey, Camille Géniès, Hélène Duplan, Helga Rothe, Corie Ellison, Richard Cubberley, Andreas Schepky, Daniela Lange, Martina Klaric, Nicola J Hewitt, Carine Jacques-Jamin
RESUMEN

The abundance of xenobiotic metabolizing enzymes (XMEs) is different in the skin and liver; therefore, it is important to differentiate between liver and skin metabolism when applying the information to safety assessment of topically applied ingredients in cosmetics. Here, we have employed EpiSkin™ S9 and human liver S9 to investigate the organ-specific metabolic stability of 47 cosmetic-relevant chemicals. The rank order of the metabolic rate of six chemicals in primary human hepatocytes and liver S9 matched relatively well. XME pathways in liver S9 were also present in EpiSkin S9; however, the rate of metabolism tended to be lower in the latter. It was possible to rank chemicals into low-, medium- and high-clearance chemicals and compare rates of metabolism across chemicals with similar structures. The determination of the half-life for 21 chemicals was affected by one or more factors such as spontaneous reaction with cofactors or non-specific binding, but these technical issues could be accounted for in most cases. There were seven chemicals that were metabolized by liver S9 but not by EpiSkin S9: 4-amino-3-nitrophenol, resorcinol, cinnamyl alcohol and 2-acetylaminofluorene (slowly metabolized); and cyclophosphamide, benzophenone, and 6-methylcoumarin. These data support the use of human liver and EpiSkin S9 as screening assays to indicate the liver and skin metabolic stability of a chemical and to allow for comparisons across structurally similar chemicals. Moreover, these data can be used to estimate the systemic bioavailability and clearance of chemicals applied topically, which will ultimately help with the safety assessment of cosmetics ingredients.

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Sigma-Aldrich
N-[Tris(hydroxymethyl)methyl]acrylamide, contains ≤7% KCl, 93%
Sigma-Aldrich
4′-Aminoacetanilide, 99%