CYP2E1 and CYP4A as microsomal catalysts of lipid peroxides in murine nonalcoholic steatohepatitis
Isabelle A. Leclercq, … , Frank J. Gonzalez, Graham R. Robertson
Isabelle A. Leclercq, … , Frank J. Gonzalez, Graham R. Robertson
Published April 15, 2000
Citation Information: J Clin Invest. 2000;105(8):1067-1075. https://doi.org/10.1172/JCI8814.
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Article

CYP2E1 and CYP4A as microsomal catalysts of lipid peroxides in murine nonalcoholic steatohepatitis

Abstract

Nonalcoholic steatohepatitis (NASH) and alcoholic liver disease have similar pathological features. Because CYP2E1 plays a key role in alcoholic liver disease with its ability to stimulate lipid peroxidation, we tested the proposal that CYP2E1 could also be a factor in the development of NASH. In a dietary model — mice fed a methionine- and choline-deficient (MCD) diet — liver injury was associated with both induction of CYP2E1 and a 100-fold increase in hepatic content of lipid peroxides. Microsomal NADPH-dependent lipid oxidases contributed to the formation of these lipid peroxides, and in vitro inhibition studies demonstrated that CYP2E1 was the major catalyst. To further define the role of CYP2E1 as an initiator of oxidative stress in NASH, Cyp2e1–/–mice were administered the MCD diet. CYP2E1 deficiency neither prevented the development of NASH nor abrogated the increased microsomal NADPH-dependent lipid peroxidation, indicating the operation of a non-CYP2E1 peroxidase pathway. In Cyp2e1–/– mice with NASH (but not in wild-type mice), CYP4A10 and CYP4A14 were upregulated. Furthermore, hepatic microsomal lipid peroxidation was substantially inhibited by anti-mouse CYP4A10 antibody in vitro. These results show that experimental NASH is strongly associated with hepatic microsomal lipid peroxidation. CYP2E1, the main enzyme associated with that process in wild-type mice, is not unique among P450 proteins in catalyzing peroxidation of endogenous lipids. We have now identified CYP4A enzymes as alternative initiators of oxidative stress in the liver.

Authors

Isabelle A. Leclercq, Geoffrey C. Farrell, Jaqueline Field, David R. Bell, Frank J. Gonzalez, Graham R. Robertson

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Hepatic levels of CYP4A10, CYP4A12, and CYP4A14 mRNA in Cyp2e1+/– mice a...
Hepatic levels of CYP4A10, CYP4A12, and CYP4A14 mRNA in Cyp2e1+/– mice and Cyp2e1–/– mice fed the MCD diet or the control diet for 10 weeks. (a) Representative autoradiograph of an RNase protection assay showing the levels of β-actin, CYP4A14, and CYP4A10 mRNA in 2 Cyp2e1+/– and Cyp2e1–/– mice fed the control diet or the MCD diet. (b) Representative autoradiograph of an RNase protection assay showing the levels of β-actin and CYP4A12 mRNA in Cyp2e1+/– mice and Cyp2e1–/– mice fed the control diet or the MCD diet. (c) mRNA levels (mean ± SD; n = 4 in each group) of the 3 mouse CYP4A genes in Cyp2e1+/– mice and Cyp2e1–/– mice fed the control diet (open bars) or the MCD diet (filled bars). Bands were quantified using the PhosphorImager and ImageQuant analysis programs from Molecular Dynamics Inc., with normalization to the β-actin signal (see Methods). Note the different scale used for CYP4A12, which is expressed at very low levels compared with CYP4A10 and CYP4A14. AP < 0.001 and BP < 0.05 compared with controls. Cont, control.