Lactobacillus casei Zhang stimulates lipid metabolism in hypercholesterolemic rats by affecting gene expression in the liver

Abstract

AbstractIn this study, we show that administration of Lactobacillus casei Zhang evokes a significant reduction in the levels of cholesterol, triglycerides (TGs), and low‐density lipoprotein cholesterol (LDL‐C) from the serum and liver of hypercholesterolemic rats. After administration of L. casei Zhang, there was 31.5 and 30.8% reduction in the levels of serum TG and LDL‐C. DNA microarray results revealed that 755 genes, mainly involved in biological regulation, and cellular and metabolic processes, were differentially expressed in the liver from rats treated with probiotic bacteria, wherein, 324 genes were up‐regulated and 431 were down‐regulated, respectively. In the up‐regulated group, we characterized genes including Acsl1, Hadh, Acaa2, Acads, and gcdH, which are involved in β‐oxidation of fatty acids and encodes enzymes catalyzing critical steps for CoA synthesis and dehydrogenation. It is possible that Lactobacillus could accelerate the fatty acid catabolism by enhancing β‐oxidation step, thus reducing the level of free fatty acid and TG in the serum and liver. Subsequently, it may trigger lipid homeostasis that converts TGs, which are the main storage form of fatty acids, into free fatty acids, and lower TG concentrations both in the serum and liver.Practical applications: Lactobacillus casei Zhang has the ability to reduce cholesterol level in the blood by stimulating gene expression related to lipid metabolism, particularly through β‐oxidation of fatty acids in liver, thereby, making it an effective candidate probiotic to treat hypercholesterolemia. The findings of this study should provide very useful information in understanding the molecular mechanism of the hypocholesterolemic effect of the strain in an animal model.