Use of precision cut human liver slices for studying the metabolism and genotoxic potential of xenobiotics by means of the 32P-postlabelling technique: steps towards method validation using testosterone and 2-aminofluorene |
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Authors: | ANDREAS BAUMANN WERNER FESER PETER CRAMER RASOUL S. KERDAR HARTMUT BLODE JURGEN KORBER |
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Affiliation: | 1. Research Laboratories, Schering AG, 13342 Berlin, Germany;2. Virchow Hospital, Humboldt-University 13353 Berlin, Germany |
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Abstract: | In the present study, a new in vitro model combining the short-term incubation of precision-cut human liver slices with DNA-adduct analysis by the 32P-postlabelling technique is proposed for investigation of the genotoxic potential of xenobiotics. For method validation, the metabolic turnover of testosterone (TES) and the DNA-adduct inducing potential of 2-aminofluorene (2-AF) were used. Precision-cut human liver slices were prepared from a total of 12 human liver samples which were freshly obtained as parts of resectates from liver surgery. The slices were incubated as submersion cultures with TES and 2-AF for up to 6 h in 12-well tissue culture plates at concentrations of 10-50 and 0.06-28 μM, respectively. Slices recovered from the slicing procedure in the 4 °C cold Krebs-Henseleit buffer as indicated by intracellular potassium concentrations which increased for 2 h and then remained stable until the end of the incubation. TES was extensively metabolized by human liver slices with a similar metabolite pattern as observed in vivo. Almost 90% of the metabolites were conjugates. Major phase-I metabolites were androstendione, 6β-OH-androstendione, 6β-OH-TES, and 15β-OHTES. After incubation with 2-AF, substance related DNA-adducts were detected which increased dose-dependently from 12 to 1146 adducts per 109 nucleotides. The adduct pattern consisted of one major adduct spot, A, representing 80-90% of the total adduct level and up to four minor adduct spots, B-E. In summary, the present data demonstrate that precision-cut liver slices are a valuable alternative in vitro system for DNA-adduct determination to screen chemicals for potential genotoxicity in humans. |
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Keywords: | Human Liver Slice Genotoxicity Dna-adduct 32p-postlabelling Assay Metabolism |
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