2’-fucosyllactose (2’-FL) Supplementation Improves Gut Barrier Function and Lipid Metabolism in HF-fed Mice

Abstract Objectives 2’-fucosyllactose (2’-FL), the most predominant oligosaccharide found in human milk, acts as a prebiotic with beneficial effects on the host. The aim of this study was to determine the beneficial effect of 2’-FL on intestinal barrier integrity and metabolic functions in low-fat (LF)- and high-fat (HF)-fed mice. Methods Male C57/BL6 mice (n = 32, 8/group; 6 weeks old, JAX, CA) were counter-balanced into four weight-matched groups and fed either a low-fat (LF; 10% kcal fat with 7% kcal sucrose) or HF (45% kcal fat with 17% kcal sucrose) with or without supplementation of 2’-FL in the diet [10% (w/w), 8 weeks; LF/2’-FL or HF/2’-FL; BASF, Germany]. General phenotypes (body weight, energy intake, fat and lean mass), intestinal permeability (ex vivo in Ussing chambers), lipid profiles, and microbial metabolites were assessed. Results 2’-FL significantly attenuated the HF-induced increase in body fat mass with a trend to decrease body weight gain. 2’-FL significantly decreased intestinal permeability in LF-fed mice with a trend for a decrease in HF-fed mice. This was associated with a significant increase in interleukin-22, a cytokine known to have a protective role in intestinal barrier function. Visceral adipocyte size was significantly decreased by 2’-FL in both LF- and HF-fed mice. 2’-FL suppressed HF-induced upregulation of adipogenic transcription factors peroxisome proliferator-activated receptor gamma and sterol regulatory element binding protein-1c in the liver. Lastly, 2’-FL supplementation led to a significant elevation of lactic acid concentration in the cecum of HF-fed mice, which is known to be a product from beneficial microbes. Conclusions 2’-FL supplementation improved gut barrier integrity and lipid metabolism in mice with and without the metabolic challenge of HF feeding. These findings support the use of 2’-FL in the control of gut barrier function and metabolic homeostasis under normal and abnormal physiological conditions. Funding Sources BASF (Germany).