Abstract
The gut microbiota influences many aspects of host metabolism. We have previously shown that the presence of a gut microbiota remodels lipid composition. Here we investigated how interaction between gut microbiota and dietary lipids regulates lipid composition in the liver and plasma, and gene expression in the liver. Germ-free and conventionally raised mice were fed a lard or fish oil diet for 11 weeks. We performed lipidomics analysis of the liver and serum and microarray analysis of the liver. As expected, most of the variation in the lipidomics dataset was induced by the diet, and abundance of most lipid classes differed between mice fed lard and fish oil. However, the gut microbiota also affected lipid composition. The gut microbiota increased hepatic levels of cholesterol and cholesteryl esters in mice fed lard, but not in mice fed fish oil. Serum levels of cholesterol and cholesteryl esters were not affected by the gut microbiota. Genes encoding enzymes involved in cholesterol biosynthesis were downregulated by the gut microbiota in mice fed lard and were expressed at a low level in mice fed fish oil independent of microbial status. In summary, we show that gut microbiota-induced regulation of hepatic cholesterol metabolism is dependent on dietary lipid composition.
Highlights
The gut microbiota influences many aspects of host metabolism
Emerging evidence suggests that some of the effects of dietary lipids on host metabolism may be mediated by modifications of the gut microbiota composition, which result in altered metabolic properties of the gut microbiota [5,6,7,8] and/or by alterations in gut integrity, which affect the extent of leakage of microbially derived metabolites into the circulation [6]
Interaction between dietary lipids and gut microbiota regulates the levels of cholesteryl esters in the liver
Summary
The gut microbiota influences many aspects of host metabolism. We have previously shown that the presence of a gut microbiota remodels lipid composition. The gut microbiota increased hepatic levels of cholesterol and cholesteryl esters in mice fed lard, but not in mice fed fish oil. Genes encoding enzymes involved in cholesterol biosynthesis were downregulated by the gut microbiota in mice fed lard and were expressed at a low level in mice fed fish oil independent of microbial status. We show that gut microbiota-induced regulation of hepatic cholesterol metabolism is dependent on dietary lipid composition.—Caesar, R., H. Interaction between dietary lipids and gut microbiota regulates hepatic cholesterol metabolism. Metabolites produced by the gut microbiota may be utilized as a source of energy by the host or may act as signaling molecules that influence host metabolism [8] These metabolites can have a local effect in the intestine, but may be transferred from the gut into the circulation, thereby affecting peripheral tissues [8].
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