Sex hormone-binding globulin suppresses NAFLD-triggered hepatocarcinogenesis after menopause

Abstract

It is generally accepted that androgen receptors increase the risk of hepatocellular carcinoma (HCC), and that estrogen reduces risk of HCC. Many studies regarding this have involved males. We, therefore, have focused our attention on females, especially postmenopausal females, who typically have limited supplies of estrogen. By using sex hormone-binding globulin (SHBG) transgenic mice, we produced a humanoid environment, and facilitated deposition and modulation of sex hormones. After exposure to diethylnitrosamine to induce HCC and upon reaching the age of 40 weeks, mice were fed the fat-rich diet for 5 months. Fat-rich diet fed or ovariectomized (OVX) wild-type mice aged 62 weeks showed HCC progression, whereas fat-rich diet fed SHBG mice or OVX SHBG mice displayed fewer tumors. In the liver of fat-rich diet fed SHBG mice, estrogenic conditions including high levels of 17β-estradiol and estrogen receptor alpha led to the induction of the lipogenesis inhibitor, phosphorylated acetyl-CoA carboxylase, and consequently suppressed fatty liver. The presence of plasma SHBG in HCC bearing mice suppressed the levels of steatosis and inflammation in a process mediated by estrogens and estrogen receptor alpha. Conversely, in the liver of OVX SHBG mice, lipogenic inhibition was also observed under conditions where the supply of estrogens is limited. Through in vitro experiment, it was confirmed SHBG suppresses lipogenesis via inhibition of acetyl-CoA carboxylase level. In conclusion, our results show that plasma SHBG might have a clinical impact on lipid-mediated hepatic diseases.