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Octacosanol and policosanol prevent high-fat diet-induced obesity and metabolic disorders by activating brown adipose tissue and improving liver metabolism.

Scientific reports
March 26, 2019
Rahul Sharma et al. (23 authors)
Journal ArticleResearch Support, Non-U.S. Gov'tAnimal Study
Study Details

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

Extracted Claims (20)
InterventionDirectionEndpointPopulationDosageImpactClaim #
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
Abstract

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.

Medical Subject Headings (MeSH)
AdipocytesAdipose Tissue, BrownAdipose Tissue, WhiteAnimalsBody WeightDiet, High-FatFatty AlcoholsFatty LiverGene Expression RegulationInflammationInsulinLiverMaleMetabolic DiseasesMice, Inbred C57BLObesityUp-Regulation
Study Links
Quality Scores
SafetyNot Assessed
Efficacy85/10
Quality75/10
Citation Metrics
Total Citations32
Citations/Year5.3
Relative Citation Ratio2.08
NIH Percentile75.7%
Research Impact Scores
APT Score0.25
Weight Score1.13
Normalized Score0.69
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