PPARα activation is essential for HCV core protein–induced hepatic steatosis and hepatocellular carcinoma in mice
Naoki Tanaka, Kyoji Moriya, Kendo Kiyosawa, Kazuhiko Koike, Frank J. Gonzalez, Toshifumi Aoyama
Naoki Tanaka, Kyoji Moriya, Kendo Kiyosawa, Kazuhiko Koike, Frank J. Gonzalez, Toshifumi Aoyama
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Research Article Hepatology

PPARα activation is essential for HCV core protein–induced hepatic steatosis and hepatocellular carcinoma in mice

Abstract

Transgenic mice expressing HCV core protein develop hepatic steatosis and hepatocellular carcinoma (HCC), but the mechanism underlying this process remains unclear. Because PPARα is a central regulator of triglyceride homeostasis and mediates hepatocarcinogenesis in rodents, we determined whether PPARα contributes to HCV core protein–induced diseases. We generated PPARα-homozygous, -heterozygous, and -null mice with liver-specific transgenic expression of the core protein gene (Ppara+/+:HCVcpTg, Ppara+/–:HCVcpTg, and Ppara–/–:HCVcpTg mice. Severe steatosis was unexpectedly observed only in Ppara+/+:HCVcpTg mice, which resulted from enhanced fatty acid uptake and decreased mitochondrial β-oxidation due to breakdown of mitochondrial outer membranes. Interestingly, HCC developed in approximately 35% of 24-month-old Ppara+/+:HCVcpTg mice, but tumors were not observed in the other genotypes. These phenomena were found to be closely associated with sustained PPARα activation. In Ppara+/–:HCVcpTg mice, PPARα activation and the related changes did not occur despite the presence of a functional Ppara allele. However, long-term treatment of these mice with clofibrate, a PPARα activator, induced HCC with mitochondrial abnormalities and hepatic steatosis. Thus, our results indicate that persistent activation of PPARα is essential for the pathogenesis of hepatic steatosis and HCC induced by HCV infection.

Authors

Naoki Tanaka, Kyoji Moriya, Kendo Kiyosawa, Kazuhiko Koike, Frank J. Gonzalez, Toshifumi Aoyama

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Figure 5

Increased oxidative stress and DNA damage in Ppara+/+:HCVcpTg mice at 24 months of age.

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Increased oxidative stress and DNA damage in Ppara+/+:HCVcpTg mice at 24...
(A) Immunohistochemical staining using antibody against 8-OHdG. In Ppara+/+:HCVcpTg mice, some steatotic hepatocytes were positive for 8-OHdG. Original magnification, ×400. (B) Numbers of 8-OHdG–positive hepatocytes. Hepatocyte nuclei stained with anti-8-OHdG antibody were counted in 2,000 hepatocytes of each mouse. Results are expressed as the mean ± SD (n = 6/group). (C) Hepatic content of lipid peroxides. Results are expressed as the mean ± SD (n = 6 /group). *P < 0.05 compared with Ppara+/+ nontransgenic mice; **P < 0.05 compared with Ppara+/–:HCVcpTg mice; #P < 0.05 compared with Ppara–/–:HCVcpTg mice. (D) Immunoblot analysis of AOX, CYP4A1, catalase, and Cu, Zn-SOD. The whole-liver lysate used in the experiment in Figure 4E (20 μg protein for AOX and CYP4A1 and 50 μg for others) was loaded in each lane. The band of actin was used as the loading control. Results are representative of 4 independent experiments. A and B indicate full-length and truncated AOX, respectively. The band intensity was quantified densitometrically, normalized by that of actin, and subsequently normalized by that in Ppara+/+ nontransgenic mice. The mean value of the fold changes is expressed under each band. *P < 0.05 compared with Ppara+/+ nontransgenic mice.