AKR7A5 knockout promote acute liver injury by inducing inflammatory response, oxidative stress and apoptosis in mice

Abstract

Alcohol liver disease has become a worldwide critical health problem. The ingested alcohol could be converted into acetaldehyde or combined with free fatty acids to induce the endoplasmic reticulum oxidative stress in the liver. Coincidentally, AKR7A5 has both aldehyde detoxification and antioxidant effects. Therefore, we discuss the possible role and mechanism of AKR7A5 in the acute alcohol injury of mice liver. There were four experiment groups, the C57BL/6 mice of wild-type mice (WT) or AKR7A5−/− mice (KO) were intragastrically administrated with saline or 50% ethanol at 14 mL/kg, respectively. Compared to the WT + alcohol group, abnormal liver function, disordered hepatic cord, severe congestion in the hepatic sinus and the space of the hepatic cord, occurrence of oxidative stress, DNA damage and different expressions of apoptosis-related proteins were detected in the KO + alcohol group. Meanwhile, the biological process enrichment analysis showed that the down-regulated proteins were related to the metabolism of fatty acid, the up-regulated proteins positive regulation of reactive oxygen species metabolic process, negative regulation of coagulation and haemostasis. In conclusion, single ethanol binge combined with the absence of AKR7A5 caused more severe inflammatory response, oxidative stress, apoptosis of endogenous pathways, abnormal lipids metabolism and disordered coagulation in mice liver.