Octacosanol and policosanol prevent high-fat diet-induced obesity and metabolic disorders by activating brown adipose tissue and improving liver metabolism.
Study Goal
The researchers aimed to investigate the effects of octacosanol and policosanol on high-fat diet-induced obesity and metabolic disorders in mice.
Results Summary
Octacosanol and policosanol reduced body weight gain, body fat gain, insulin resistance, and hepatic lipid content in mice fed a high-fat diet. These effects were associated with increased BAT activity, improved hepatic lipid metabolism, and reduced WAT inflammation.
Population
Mice fed a high-fat diet.
Effective Dosage
Not specified
Duration
4 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
high-fat diet (HFD) | increase | body weight | mice | - | showed significantly higher | #1 |
high-fat diet (HFD) | increase | body fat | mice | - | showed significantly higher | #2 |
octacosanol | decrease | body weight gain | mice fed on HFD | - | showed lower | #3 |
policosanol | decrease | body weight gain | mice fed on HFD | - | showed lower | #4 |
octacosanol | decrease | body fat gain | mice fed on HFD | - | showed lower | #5 |
policosanol | decrease | body fat gain | mice fed on HFD | - | showed lower | #6 |
octacosanol | decrease | insulin resistance | mice fed on HFD | - | showed lower | #7 |
policosanol | decrease | insulin resistance | mice fed on HFD | - | showed lower | #8 |
octacosanol | decrease | hepatic lipid content | mice fed on HFD | - | showed lower | #9 |
policosanol | decrease | hepatic lipid content | mice fed on HFD | - | showed lower | #10 |
octacosanol | increase | BAT activity | mice fed on HFD | - | was associated with increased | #11 |
policosanol | increase | BAT activity | mice fed on HFD | - | was associated with increased | #12 |
octacosanol | decrease | expression of genes involved in lipogenesis | mice fed on HFD | - | reduced expression of genes involved in lipogenesis | #13 |
policosanol | decrease | expression of genes involved in lipogenesis | mice fed on HFD | - | reduced expression of genes involved in lipogenesis | #14 |
octacosanol | decrease | expression of genes involved in cholesterol uptake in the liver | mice fed on HFD | - | reduced expression of genes involved in cholesterol uptake in the liver | #15 |
policosanol | decrease | expression of genes involved in cholesterol uptake in the liver | mice fed on HFD | - | reduced expression of genes involved in cholesterol uptake in the liver | #16 |
octacosanol | decrease | white adipose tissue (WAT) inflammation | mice fed on HFD | - | amelioration of | #17 |
policosanol | decrease | white adipose tissue (WAT) inflammation | mice fed on HFD | - | amelioration of | #18 |
octacosanol | increase | Ffar4 expression | mice fed on HFD | - | significantly increased the expression of | #19 |
policosanol | increase | Ffar4 expression | mice fed on HFD | - | significantly increased the expression of | #20 |
Brown adipose tissue (BAT) is an attractive therapeutic target for treating obesity and metabolic diseases. Octacosanol is the main component of policosanol, a mixture of very long chain aliphatic alcohols obtained from plants. The current study aimed to investigate the effect of octacosanol and policosanol on high-fat diet (HFD)-induced obesity. Mice were fed on chow, or HFD, with or without octacosanol or policosanol treatment for four weeks. HFD-fed mice showed significantly higher body weight and body fat compared with chow-fed mice. However, mice fed on HFD treated with octacosanol or policosanol (HFDo/p) showed lower body weight gain, body fat gain, insulin resistance and hepatic lipid content. Lower body fat gain after octacosanol or policosanol was associated with increased BAT activity, reduced expression of genes involved in lipogenesis and cholesterol uptake in the liver, and amelioration of white adipose tissue (WAT) inflammation. Moreover, octacosanol and policosanol significantly increased the expression of Ffar4, a gene encoding polyunsaturated fatty acid receptor, which activates BAT thermogenesis. Together, these results suggest that octacosanol and policosanol ameliorate diet-induced obesity and metabolic disorders by increasing BAT activity and improving hepatic lipid metabolism. Thus, these lipids represent promising therapeutic targets for the prevention and treatment of obesity and obesity-related metabolic disorders.