Proteomic Investigations of Transcription Factors Critical in Geniposide-Mediated Suppression of Alcoholic Steatosis and in Overdose-Induced Hepatotoxicity on Liver in Rats.

Alcoholic steatosis is one of the most prevalent forms of liver disease, and appropriate insight and application of anti-steatosis drugs must be considered. Geniposide, the major active constituent of the Gardenia jasminoides (Ellis) fruit, has been commonly used as a traditional herbal medicine for the treatment of liver diseases. However, its hepatoprotective effect on alcoholic steatosis has not been reported. Moreover, geniposide overdose-induced hepatotoxicity was demonstrated. Hence, its therapeutic effects and overdose-induced hepatotoxicity in rat models along with corresponding targets, especially the targets of transcription factors (TFs), were systematically investigated in this study by using a concatenated tandem array of consensus TF response elements. The results indicate that geniposide can attenuate alcoholic steatosis and liver injury by enhancing the transcriptional activities of peroxisome proliferator-activated receptor-α and hepatocyte nuclear factors 1α and 4α, while geniposide overdose perturbs other TFs. In addition, therapeutic doses and overdoses of geniposide have differentiated target TFs. This study is the first to provide a systematic insight into the difference of critical transcription factors between the actions of therapeutic doses and overdoses of geniposide, as well as much-needed attention to the important topic of alcoholic liver disease therapy.