Nonalcoholic fatty liver disease (NAFLD) is regarded as a liver metabolic syndrome that the fat accumulation over 5% of the total liver weight. The prevalence of NAFLD in Taiwan is high to 26~34%. Many researches have demonstrated that NAFLD is highly associated with obesity, diabetes and metabolic disorders. Notably, NAFLD has potential to progress through the inflammatory phase of nonalcoholic steatohepatitis (NASH) to fibrosis, cirrhosis (20%), and in some cases to liver failure (9%) or hepatocellular carcinoma (HCC) (1%). Nevertheless, there is no drug for treating NAFLD effectively. Therefore, dietary treatment becomes more important for prevention of NAFLD. Bitter melon (BM) is a popular vegetable that has been used to treat diabetes and metabolic disorder in Asia, South America and East Africa. Since NAFLD is part of the metabolic disorder, in this study we investigated if bitter melon can prevent the development of NAFLD. In animal experiments, we used male C57BL/6 mice as animal model. Mice were fed with low fat (LF), high fat/high cholesterol (HFC), or HFC diet supplemented with 5% Hualien No.1 (H1), No.2 (H2) or No.4 (H4) BM powder (HFC+H1, HFC+H2 or HFC+H4). After 4 weeks feeding, body weight, epididymal fat, plasma glucose level and liver cholesterol were significantly decreased in mice fed with HFC+H1 or HFC+H4 diet. The beneficial effect of BM was also observed in histology analyses by decrease accumulation of lipid droplets in the liver. Hepatic expression levels of SREBP-1c, FAS and ACC mRNA were also decreased in mice fed with diet containing BM powders, especially those fed diet containing H4. However, H2 did not improve body weight, epididymal fat weight or plasma glucose level. VI To exclude that the beneficial effects of BM is due to lower food intake; in experiment 2, HFC+2.5%H1, HFC+5%H1, HFC+2.5%H4 or HFC+5%H4 diets were given by pair feeding. In order to test the role of dietary cholesterol in the development of NAFLD, a group of control mice were fed with HFC diet supplemented with 10 μg ezetimibe/g diet. Similar to the results of experiment 1, diet containing H1 or H4 BM lowered plasma glucose and liver cholesterol. Histological analyses also showed that BM feeding resulted in less lipid accumulation in the liver. Moreover, intestinal NPC1L1 mRNA was decreased in mice fed with H1 or H4 BM. These results suggest that BM ameliorated NAFLD may due to decrease intestinal cholesterol absorption. In addition, intestinal CD36 mRNA was decreased in mice fed with diet containing BM powder. It is possible that fatty acid absorption was also decreased in mice fed diet containing BM powder. In conclusion, our results show that cholesterol plays a pivotal role in the development of NAFLD. And H1 and H4 BM decrease hepatic expression of lipogenic enzymes, cholesterol accumulation and thus ameliorate NAFLD; possibly through decrease intestinal cholesterol absorption. However, the mechanisms underlie require further investigation.