Issue 6, 2019

Mechanism analysis of improved glucose homeostasis and cholesterol metabolism in high-fat-induced obese mice treated with La-SJLH001 via transcriptomics and culturomics

Abstract

This study aimed to evaluate the functional and probiotic properties of Lactobacillus acidophilus SJLH001 (La-SJLH001) isolated from fermented food via mechanism analysis based on transcriptomics and culturomics. La-SJLH001 exhibited good tolerance to acid and bile salt conditions with anti-diabetic ability and cholesterol assimilation activity in vitro. Supplementation with La-SJLH001 also resulted in a significant reduction in host oral glucose and serum total cholesterol levels in vivo. Transcriptome profiles and qPCR analysis suggested that La-SJLH001 significantly regulated the transcription of key genes involved in glucose transportation, cholesterol metabolism, ion channels, and immune response, resulting in improved glucose homeostasis and cholesterol metabolism. La-SJLH001 significantly affected the structure of intestinal microbiota when analyzed by using culturomics coupled with MALDI-TOF MS. These results indicated that La-SJLH001 may be a mechanistic target for the control of diabetes with great potential in the application of probiotic products.

Graphical abstract: Mechanism analysis of improved glucose homeostasis and cholesterol metabolism in high-fat-induced obese mice treated with La-SJLH001 via transcriptomics and culturomics

Supplementary files

Article information

Article type
Paper
Submitted
29 Jan 2019
Accepted
25 May 2019
First published
27 May 2019

Food Funct., 2019,10, 3556-3566

Mechanism analysis of improved glucose homeostasis and cholesterol metabolism in high-fat-induced obese mice treated with La-SJLH001 via transcriptomics and culturomics

Q. Sun, Y. Zhang, Z. Li, H. Yan, J. Li and X. Wan, Food Funct., 2019, 10, 3556 DOI: 10.1039/C9FO00205G

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