الملخص
Nonalcoholic fatty liver disease (NAFLD) is a chronic liver disease in which a large amount of fat accumulates in hepatocytes due to lipid metabolism disorders. Conventional anti-inflammatory and transaminase-lowering treatment regimens often have an unsatisfactory therapeutic effect, and restoring the normal biosynthesis and metabolism of lipids is the key to the treatment of NAFLD. Studies have shown that brown adipose tissue can improve metabolic diseases by enhancing insulin sensitivity and regulating lipid metabolism, and the treatment of NAFLD by promoting white fat browning has attracted wide attention in the medical field. This article reviews the mechanism of white fat browning in improving NAFLD and summarizes the hepatokines that can promote white fat browning, so as to provide new ideas for the clinical treatment of NAFLD.
الملخص
Leptin receptor deficiency causes morbid obesity and hyperlipidemia in mice. Since physical exercise enhances energy expenditure, it is an important part of successful weight-control regimens. We investigated the mechanism by which swim training regulates leptin receptor deficiency-induced obesity and lipid disorder in a mouse model of obesity (obese db/db mouse). Swim training for 6 weeks significantly decreased body weight gain and adipose tissue mass in both sexes of obese and lean mice, compared to their respective sedentary controls. These effects were particularly evident in obese mice. Swim training also caused significant decreases in serum levels of triglycerides, free fatty acids and total cholesterol in both obese and lean mice. In obese mice, swim training increased the levels of mRNAs and proteins encoding uncoupling protein 1 (UCP1), UCP2 and UCP3 in brown adipose tissue, white adipose tissue and skeletal muscle, respectively. In conclusion, these findings suggest that, in mice, swim training can effectively prevent body weight gain, adiposity and lipid disorders caused by leptin receptor deficiency, in part through activation of UCPs in adipose tissue and skeletal muscle, which may contribute to alleviating metabolic syndromes, such as obesity, hyperlipidemia and type 2 diabetes.