Survival of Probiotic Lactobacilli in Acidic Environments Is Enhanced in the Presence of Metabolizable Sugars

Author:

Corcoran B. M.12,Stanton C.13,Fitzgerald G. F.23,Ross R. P.13

Affiliation:

1. Teagasc, Dairy Products Research Centre, Moorepark, Fermoy, Co. Cork, Ireland

2. Department of Microbiology, University College, Cork, Ireland

3. Alimentary Pharmabiotic Centre, Cork, Ireland

Abstract

ABSTRACT Lactobacillus rhamnosus GG is an industrially significant probiotic strain with proven health benefits. In this study, the effect of glucose on L. rhamnosus GG survival was analyzed in simulated gastric juice at pH 2.0. It was found that the presence of 19.4 mM glucose resulted in up to 6-log 10 -enhanced survival following 90 min of exposure. Further work with dilute HCl confirmed that glucose was the sole component responsible. Comparative analysis with other Lactobacillus strains revealed that enhanced survival was apparent in all strains, but at different pH values. The presence of glucose at concentrations from 1 to 19.4 mM enhanced L. rhamnosus GG survival from 6.4 to 8 log 10 CFU ml −1 in simulated gastric juice. The mechanisms behind the protective effect of glucose were investigated. Addition of N ′, N ′-dicyclohexylcarbodiimide to simulated gastric juice caused survival to collapse, which was indicative of a prominent role in inhibition of F 0 F 1 -ATPase. Further work with neomycin-resistant mutants that exhibited 38% to 48% of the F 0 F 1 -ATPase activity of the parent confirmed this, as the survival in the presence of glucose of these mutants decreased 3 × 10 6 -fold compared with the survival of the wild type (which had a viability of 8.02 log 10 CFU ml −1 ). L. rhamnosus GG survival in acidic conditions occurred only in the presence of sugars that it could metabolize efficiently. To confirm the involvement of glycolysis in the glucose effect, iodoacetic acid was used to inhibit glyceraldehyde-3-phosphate dehydrogenase (GAPDH) activity. The reduction in GAPDH activity caused survival to decrease by 8.30 log 10 CFU ml −1 in the presence of glucose. The data indicate that glucose provides ATP to F 0 F 1 -ATPase via glycolysis, enabling proton exclusion and thereby enhancing survival during gastric transit.

Publisher

American Society for Microbiology

Subject

Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology

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