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Development of a microphysiological skin-liver-thyroid Chip3 model and its application to evaluate the effects on thyroid hormones of topically applied cosmetic ingredients under consumer-relevant conditions.
Tao, Thi-Phuong; Maschmeyer, Ilka; LeCluyse, Edward L; Rogers, Eda; Brandmair, Katrin; Gerlach, Silke; Przibilla, Julia; Kern, Fredy; Genies, Camille; Jacques, Carine; Najjar, Abdulkarim; Schepky, Andreas; Marx, Uwe; Kühnl, Jochen; Hewitt, Nicola J.
Affiliation
  • Tao TP; TissUse GmbH, Berlin, Germany.
  • Maschmeyer I; TissUse GmbH, Berlin, Germany.
  • LeCluyse EL; LifeNet Health, Durham, NC, United States.
  • Rogers E; LifeNet Health, Virginia Beach, VA, United States.
  • Brandmair K; Beiersdorf AG, Hamburg, Germany.
  • Gerlach S; Beiersdorf AG, Hamburg, Germany.
  • Przibilla J; Pharmacelsus GmbH, Saarbrücken, Germany.
  • Kern F; Pharmacelsus GmbH, Saarbrücken, Germany.
  • Genies C; Pierre Fabre Dermo-Cosmétique, Toulouse, France.
  • Jacques C; Pierre Fabre Dermo-Cosmétique, Toulouse, France.
  • Najjar A; Beiersdorf AG, Hamburg, Germany.
  • Schepky A; Beiersdorf AG, Hamburg, Germany.
  • Marx U; TissUse GmbH, Berlin, Germany.
  • Kühnl J; Beiersdorf AG, Hamburg, Germany.
  • Hewitt NJ; Cosmetics Europe, Auderghem, Belgium.
Front Pharmacol ; 14: 1076254, 2023.
Article in En | MEDLINE | ID: mdl-36843954
All cosmetic ingredients registered in Europe must be evaluated for their safety using non-animal methods. Microphysiological systems (MPS) offer a more complex higher tier model to evaluate chemicals. Having established a skin and liver HUMIMIC Chip2 model demonstrating how dosing scenarios impact the kinetics of chemicals, we investigated whether thyroid follicles could be incorporated to evaluate the potential of topically applied chemicals to cause endocrine disruption. This combination of models in the HUMIMIC Chip3 is new; therefore, we describe here how it was optimized using two chemicals known to inhibit thyroid production, daidzein and genistein. The MPS was comprised of Phenion® Full Thickness skin, liver spheroids and thyroid follicles co-cultured in the TissUse HUMIMIC Chip3. Endocrine disruption effects were determined according to changes in thyroid hormones, thyroxine (T4) and 3,3',5-triiodothyronine (T3). A main part of the Chip3 model optimization was the replacement of freshly isolated thyroid follicles with thyrocyte-derived follicles. These were used in static incubations to demonstrate the inhibition of T4 and T3 production by genistein and daidzein over 4 days. Daidzein exhibited a lower inhibitory activity than genistein and both inhibitory activities were decreased after a 24 h preincubation with liver spheroids, indicating metabolism was via detoxification pathways. The skin-liver-thyroid Chip3 model was used to determine a consumer-relevant exposure to daidzein present in a body lotion based on thyroid effects. A "safe dose" of 0.235 µg/cm2 i.e., 0.047% applied in 0.5 mg/cm2 of body lotion was the highest concentration of daidzein which does not result in changes in T3 and T4 levels. This concentration correlated well with the value considered safe by regulators. In conclusion, the Chip3 model enabled the incorporation of the relevant exposure route (dermal), metabolism in the skin and liver, and the bioactivity endpoint (assessment of hormonal balance i.e., thyroid effects) into a single model. These conditions are closer to those in vivo than 2D cell/tissue assays lacking metabolic function. Importantly, it also allowed the assessment of repeated doses of chemical and a direct comparison of systemic and tissue concentrations with toxicodynamic effects over time, which is more realistic and relevant for safety assessment.
Key words

Full text: 1 Database: MEDLINE Language: En Journal: Front Pharmacol Year: 2023 Type: Article Affiliation country: Germany

Full text: 1 Database: MEDLINE Language: En Journal: Front Pharmacol Year: 2023 Type: Article Affiliation country: Germany