Unknown

Dataset Information

0

Dietary sphingomyelin lowers hepatic lipid levels and inhibits intestinal cholesterol absorption in high-fat-fed mice.

ABSTRACT: Controlling intestinal lipid absorption is an important strategy for maintaining lipid homeostasis. Accumulation of lipids in the liver is a major risk factor for metabolic syndrome and nonalcoholic fatty liver disease. It is well-known that sphingomyelin (SM) can inhibit intestinal cholesterol absorption. It is, however, unclear if dietary SM also lowers liver lipid levels. In the present study (i) the effect of pure dietary egg SM on hepatic lipid metabolism and intestinal cholesterol absorption was measured with [(14)C]cholesterol and [(3)H]sitostanol in male C57BL/6 mice fed a high-fat (HF) diet with or without 0.6% wt/wt SM for 18 days; and (ii) hepatic lipid levels and gene expression were determined in mice given a HF diet with or without egg SM (0.3, 0.6 or 1.2% wt/wt) for 4 weeks. Mice supplemented with SM (0.6% wt/wt) had significantly increased fecal lipid and cholesterol output and reduced hepatic [(14)C]cholesterol levels after 18 days. Relative to HF-fed mice, SM-supplemented HF-fed mice had significantly lower intestinal cholesterol absorption (-30%). Liver weight was significantly lower in the 1.2% wt/wt SM-supplemented mice (-18%). Total liver lipid (mg/organ) was significantly reduced in the SM-supplemented mice (-33% and -40% in 0.6% wt/wt and 1.2% wt/wt SM, respectively), as were triglyceride and cholesterol levels. The reduction in liver triglycerides was due to inactivation of the LXR-SREBP-1c pathway. In conclusion, dietary egg SM has pronounced hepatic lipid-lowering properties in mice maintained on an obesogenic diet.

SUBMITTER: Chung RW 

PROVIDER: S-EPMC3567029 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

Dietary sphingomyelin lowers hepatic lipid levels and inhibits intestinal cholesterol absorption in high-fat-fed mice.

Chung Rosanna W S RW   Kamili Alvin A   Tandy Sally S   Weir Jacquelyn M JM   Gaire Raj R   Wong Gerard G   Meikle Peter J PJ   Cohn Jeffrey S JS   Rye Kerry-Anne KA  

PloS one 20130207 2

Controlling intestinal lipid absorption is an important strategy for maintaining lipid homeostasis. Accumulation of lipids in the liver is a major risk factor for metabolic syndrome and nonalcoholic fatty liver disease. It is well-known that sphingomyelin (SM) can inhibit intestinal cholesterol absorption. It is, however, unclear if dietary SM also lowers liver lipid levels. In the present study (i) the effect of pure dietary egg SM on hepatic lipid metabolism and intestinal cholesterol absorpti  ...[more]

Similar Datasets

Unknown Effect of dietary sphingomyelin on absorption and fractional synthetic rate of cholesterol and serum lipid profile in humans.
| S-EPMC3765565 | biostudies-literature
Unknown Eggshell membrane powder lowers plasma triglyceride and liver total cholesterol by modulating gut microbiota and accelerating lipid metabolism in high-fat diet-fed mice.
| S-EPMC7215208 | biostudies-literature
Unknown Sphingomyelin content of intestinal cell membranes regulates cholesterol absorption. Evidence for pancreatic and intestinal cell sphingomyelinase activity.
| S-EPMC1132970 | biostudies-other
Unknown Blocking ??/??-Adrenergic Signaling Reduces Dietary Fat Absorption by Suppressing Expression of Pancreatic Lipase in High Fat-Fed Mice.
| S-EPMC5877718 | biostudies-literature
Transcriptomics Totum-070, a nutritional combination of plant extracts, prevents hypercholesterolemia in high fat diet-fed hamsters by inhibiting intestinal cholesterol absorption
2023-06-30 | GSE227411 | GEO
Unknown Dietary Plant Sterol Esters Must Be Hydrolyzed to Reduce Intestinal Cholesterol Absorption in Hamsters.
| S-EPMC4478947 | biostudies-literature
Unknown Transcriptional control of intestinal cholesterol absorption, adipose energy expenditure and lipid handling by Sortilin.
| S-EPMC5998044 | biostudies-literature
Unknown Monobutyrin Reduces Liver Cholesterol and Improves Intestinal Barrier Function in Rats Fed High-Fat Diets.
| S-EPMC6412756 | biostudies-literature
Unknown 5-aminosalicylic acid improves lipid profile in mice fed a high-fat cholesterol diet through its dual effects on intestinal PPARγ and PPARα.
| S-EPMC5774772 | biostudies-literature
Proteomics Pyruvate kinase M2 controls lipid homeostasis via regulation of SREBPs activation and intestinal cholesterol absorption
2021-08-06 | PXD026434 | Pride