Spectral properties of substrate-cytochrome P-450 interaction and catalytic activity of xenobiotic metabolizing enzymes in isolated rainbow trout liver cells

Abstract

A method for the isolation of intact viable rainbow trout liver cells in high numbers is described. The technique involves perfusion of collagenase through the liver. A major part of the cytochrome P-450 in isolated liver cells was present in the oxidized non-substrate bound form. It was observed that 7-ethoxycoumarin was rapidly taken up by the liver cells and bound to cellular cytochrome P-450. The substrate binding spectrum for isolated trout liver cells was slightly modified compared with that obtained with trout liver microsomes. The microsomal affinity of 7-ethoxycoumarin, calculated as the apparent spectral dissociation constant ( k s), was elevated 11-fold after fish were treated with β-napthoflavone, indicating a qualitative alteration in the nature of the constititive cytochrome P-450. The metabolism of 7-ethoxycoumarin in isolated liver cells was found to be af a comparable rate to that obtained in liver microsomes. Pretreatment of fish with Clophen A50 or β-naphthoflavone significantly increased the content of cytochrome P-450 and elevated the rate of 7-ethoxycoumarin deethylation in isolated liver cells. Furthermore, the rate of conjugation of 7-hydroxycoumarin was significantly elevated in liver cells isolated from β-naphthoflavone treated fish when compared with the control rate. In isolated liver cells, 90% of the 7-hydroxycoumarin formed from deethylation of 7-ethoxycoumarin was further metabolized to conjugated products. However, in β-naphthoflavone of Clophen A50 treated fish the fraction of conjugated metabolites was markedly decreased, indicating a changed balance between cytochrome P-450 dependent reactions and conjugation reactions in the cell.