Acquisition of bile salt resistance promotes antibiotic susceptibility changes in Bifidobacterium

The effect of acquired resistance to bile on the antimicrobial sensitivity of two Bifidobacterium strains (Bifidobacterium animalis IPLA4549 and Bifidobacterium longum NIZO B667) was studied. The MICs of 23 different antibiotics belonging to the most clinically important groups were determined by us...

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Bibliographic Details
Published in:Journal of food protection 2005-09, Vol.68 (9), p.1916-1919
Main Authors: Noriega, L, Reyes-Gavilan, C.G. de los, Margolles, A
Format: Article
Language:English
Subjects:
acid tolerance
Adaptation, Physiological
Anti-Bacterial Agents - pharmacology
antibiotic resistance
antibiotics
Bifidobacterium - drug effects
Bifidobacterium - growth & development
Bifidobacterium - physiology
Bifidobacterium animalis
Bifidobacterium longum
bile acids
Bile Acids and Salts - pharmacology
bile salts
Biological and medical sciences
Digestive System - microbiology
Drug Resistance, Bacterial - drug effects
Food industries
Food microbiology
Fundamental and applied biological sciences. Psychology
health promotion
Humans
intestinal microorganisms
lactic acid bacteria
Microbial Sensitivity Tests
Probiotics
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Summary:The effect of acquired resistance to bile on the antimicrobial sensitivity of two Bifidobacterium strains (Bifidobacterium animalis IPLA4549 and Bifidobacterium longum NIZO B667) was studied. The MICs of 23 different antibiotics belonging to the most clinically important groups were determined by using the Etest method, which comprises nonporous plastic strips calibrated with a predefined gradient of antibiotic concentrations covering 15 twofold dilutions. The strains were sensitive to most antibiotics assayed, although they tolerated relatively high concentrations of gentamicin, kanamycin, streptomycin, polymyxin B, and ciprofloxacin (from 32 to more than 1,024 microgram/ml). One of the bile-adapted strains was more strongly resistant to ceftazidime than was its parent bile-sensitive strain, and the other bile-adapted strain had increased resistance to tetracyclines. Therefore, to test the possibility that the acquisition of stable resistance to bile could be associated with a general increase in resistance to some antibiotics, we analyzed the sensitivities of four additional pairs of parent strains and their bile-adapted derivatives to ceftazidime and three tetracyclines (doxycycline, minocycline, and tetracycline). Three of the bile-resistant derivatives had increased resistance to ceftazidime (more than 256-fold) compared with their parents, and two had enhanced resistance to tetracyclines (at least 12-fold). Thus, the acquisition of bile salts resistance in Bifidobacterium induced modifications of the antibiotic resistance patterns. These results suggest that adaptation of probiotics to bile could also change their potential impact on intestinal microbiota, and this possibility deserves further attention.
ISSN:0362-028X
1944-9097
DOI:10.4315/0362-028X-68.9.1916