Evaluation of Yo Jyo Hen Shi Ko (YHK) in hepatic lipid metabolism in experimental steatohepatitis

Nonalcoholic fatty liver disease (NAFLD) is currently one of the most common forms of liver disease, related directly to the increase of obesity in the world. Previous studies indicate a prevalence of around 30% in the western population and 11% in the eastern. This disease covers cases from simple steatosis without inflammation to cases of steato hepatitis (NASH) and fibrosis and it may lead to liver cirrhosis and hepatocellular carcinoma. The pathophysiology of NAFLD is based on multiple events: insulin resistance, increased peripheral lipolysis, increased de novo lipogenesis, oxidative stress, endotoxemia in triggering chronic inflammation and fibrosis and others. The initial stage of the disease is characterized by the accumulation of fatty acids in hepatocytes caused by the lipogenic action of insulin. This condition results in the surpassing of the cells ability to metabolize and export. This way, the metabolism of fatty acids is closely linked to the development of NAFLD. The Yo Jyo Hen Shi Ko (YHK) is a natural compound used in Japanese medicine for the treatment of liver disease and it has antioxidant, anti-inflammatory and lipid lowering properties. This study aimed to evaluate the effect of YHK in the hepatic metabolism of lipids. An experimental model was designed using obese mice (ob/ob) affected by NASH induced by a deficient diet in choline and methionine (MCD). Then, genes from its hepatic tissue related to de novo lipogenesis (SREBP1c, FASN), to lipid oxidation and exportation (CPT1A and SCD-1, MTP) as well as genes related to lipid storage (Perilipin and ADFP) were analyzed. The YHK presented a cytoprotective effect, improving the hepatic histological parameters in this experimental model. Additionally, when comparing the group treated with MCD + YHK (diet + YHK) to the untreated MCD group (diet) there was a reduction in the expression of genes related to de novo synthesis like SREBP1c and FASn. However, an increased expression of MTP and SCD-1 were observed leading to a greater liver exportation of fatty acids in animals that were treated with YHK. Moreover, the YHK modulated the proteins Perilipin and ADFP. On the other hand, there was no changing in lipid oxidation. In summary, the YHK can be a promising drug for the treatment of NAFLD, as it acts by modulating genes involved in the synthesis and exportation of hepatic lipids, reducing the accumulation of fat in hepatocytes (AU)