Lactobacillus casei strain GG reverses increased intestinal permeability induced by cow milk in suckling rats.

BACKGROUND

Lactobacilli constitute a major part of the microflora throughout the gastrointestinal tract. This study aimed to investigate the effect of lactobacilli on the gut mucosal barrier.

METHODS

Rat pups were divided into three experimental feeding groups at the age of 14 days. In addition to normal maternal milk, group "milk" received a daily gavage of cow milk, group "milk-GG" received Lactobacillus casei strain GG with cow milk, and controls were gavaged with the same volume of water. At 21 days, the absorption of horseradish peroxidase across patch-free jejunal segments and segments containing Peyer's patches was studied in Ussing chambers.

RESULTS

The mean absorption of intact horseradish peroxidase expressed in ng.h-1.cm-2, was significantly different in the study groups in both patch-free segments (controls, 9 [95% confidence interval, 7-12]; milk, 72 [60-87]; and milk-GG, 15 [4-52]) and in segments containing Peyer's patches (controls, 3 [1-17]; milk, 80 [43-151]; and milk-GG, 15 [4-56]). There was a significant increase in the frequency of cells secreting antibodies to beta-lactoglobulin (enzyme-linked immunospot assay) in the milk-GG group.

CONCLUSIONS

Prolonged cow milk challenge in suckling rats increases gut permeability to intact proteins, whereas Lactobacillus GG counteracts this permeability disorder. The results suggest a link between the intensity of the antigen-specific immune response and stabilization of the mucosal barrier.