Tamoxifen is an inhibitor of estrogen receptors and was originally developed for breast cancer therapy. Besides, tamoxifen is widely used for Cre-estrogen receptor-mediated conditional knockout in transgenic mice. However, we found that the 3-month feeding of 0.5 g/kg tamoxifen diet dramatically lowered the body weight of mice. The liver fat content and the serum lipid indicators were all decreased. But the liver injuries were identified, as illustrated by liver/body ratio and serum ALT and AST levels. The Sirius red staining and α-SMA staining even showed fibrosis in the liver. The increased lipid peroxidation indicators MDA and LPO, and ferroptosis markers COX-2, GPX4, SLC7A11, and ACSL4 implied the tamoxifen-induced ferroptosis in the liver. We further found that tamoxifen induced hepatic iron deposition. The investigation of iron transporters found that tamoxifen upregulated ferric iron reductase STEAP3, ferrous iron transporter DMT1, and iron storage molecule ferritin, which were probably the reasons for tamoxifen-induced iron deposition. The downregulation of the transferrin receptor and upregulation of hepcidin were more likely the responses to iron deposition. In conclusion, we found that tamoxifen disturbed the iron metabolism and induced liver injuries and ferroptosis, warranting attention to the applications of tamoxifen in cancer therapy and conditional gene knockout.
Keywords: ferroptosis; iron metabolism; lipid peroxidation; liver injury; tamoxifen.
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