BACKGROUND: Episkin and full thickness model from Episkin (FTM) are human skin models obtained from in vitro growth of keratinocytes into the five typical layers of the epidermis. FTM is a full thickness reconstructed skin model that also contains fibroblasts seeded in a collagen matrix. OBJECTIVES: To assess whether enzymes involved in chemical detoxification are expressed in Episkin and FTM and how their levels compare with the human epidermis, dermis and total skin. METHODS: Quantification of the mRNA expression levels of phases 1 and 2 metabolizing enzymes in cultured Episkin and FTM and human epidermis, dermis and total skin using Realtime PCR. RESULTS: The data show that the expression profiles of 61 phases 1 and 2 metabolizing enzymes in Episkin, FTM and epidermis are generally similar, with some exceptions. Cytochrome P450-dependent enzymes and flavin monooxygenases are expressed at low levels, while phase 2 metabolizing enzymes are expressed at much higher levels, especially, glutathione-S-transferase P1 (GSTP1) catechol-O-methyl transferase (COMT), steroid sulfotransferase (SULT2B1b), and N-acetyl transferase (NAT5). The present study also identifies the presence of many enzymes involved in cholesterol, arachidonic acid, leukotriene, prostaglandin, eicosatrienoic acids, and vitamin D3 metabolisms. CONCLUSION: The present data strongly suggest that Episkin and FTM represent reliable and valuable in vitro human skin models for studying the function of phases 1 and 2 metabolizing enzymes in xenobiotic metabolisms. They could be used to replace invasive methods or laboratory animals for skin experiments.
BACKGROUND: Episkin and full thickness model from Episkin (FTM) are human skin models obtained from in vitro growth of keratinocytes into the five typical layers of the epidermis. FTM is a full thickness reconstructed skin model that also contains fibroblasts seeded in a collagen matrix. OBJECTIVES: To assess whether enzymes involved in chemical detoxification are expressed in Episkin and FTM and how their levels compare with the human epidermis, dermis and total skin. METHODS: Quantification of the mRNA expression levels of phases 1 and 2 metabolizing enzymes in cultured Episkin and FTM and human epidermis, dermis and total skin using Realtime PCR. RESULTS: The data show that the expression profiles of 61 phases 1 and 2 metabolizing enzymes in Episkin, FTM and epidermis are generally similar, with some exceptions. Cytochrome P450-dependent enzymes and flavin monooxygenases are expressed at low levels, while phase 2 metabolizing enzymes are expressed at much higher levels, especially, glutathione-S-transferase P1 (GSTP1) catechol-O-methyl transferase (COMT), steroid sulfotransferase (SULT2B1b), and N-acetyl transferase (NAT5). The present study also identifies the presence of many enzymes involved in cholesterol, arachidonic acid, leukotriene, prostaglandin, eicosatrienoic acids, and vitamin D3 metabolisms. CONCLUSION: The present data strongly suggest that Episkin and FTM represent reliable and valuable in vitro human skin models for studying the function of phases 1 and 2 metabolizing enzymes in xenobiotic metabolisms. They could be used to replace invasive methods or laboratory animals for skin experiments.
Authors: Adrienne T Black; Patrick J Hayden; Robert P Casillas; Diane E Heck; Donald R Gerecke; Patrick J Sinko; Debra L Laskin; Jeffrey D Laskin Journal: Toxicol Appl Pharmacol Date: 2010-09-16 Impact factor: 4.219
Authors: Sven van Eijl; Zheying Zhu; John Cupitt; Magdalena Gierula; Christine Götz; Ellen Fritsche; Robert J Edwards Journal: PLoS One Date: 2012-07-26 Impact factor: 3.240
Authors: Natalie Alépée; Anthony Bahinski; Mardas Daneshian; Bart De Wever; Ellen Fritsche; Alan Goldberg; Jan Hansmann; Thomas Hartung; John Haycock; Helena Hogberg; Lisa Hoelting; Jens M Kelm; Suzanne Kadereit; Emily McVey; Robert Landsiedel; Marcel Leist; Marc Lübberstedt; Fozia Noor; Christian Pellevoisin; Dirk Petersohn; Uwe Pfannenbecker; Kerstin Reisinger; Tzutzuy Ramirez; Barbara Rothen-Rutishauser; Monika Schäfer-Korting; Katrin Zeilinger; Marie-Gabriele Zurich Journal: ALTEX Date: 2014-07-14 Impact factor: 6.043