Phenotypic zinc resistance does not correlate with antimicrobial multi-resistance in fecal E. coli isolates of piglets

Phenotypic zinc resistance does not correlate with antimicrobial multi-resistance in fecal E. coli isolates of piglets

Following the ban on antimicrobial usage for growth promotion in animal husbandry in the EU, non-antimicrobial agents including heavy metal ions (e.g. zinc and copper), prebiotics or probiotics have been suggested as alternatives. Zinc has extensively been used in pig farming, particularly during we...

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Bibliographic Details
Published in:Gut pathogens Vol. 12; no. 1; p. 4
Main Authors: Ghazisaeedi, Fereshteh, Ciesinski, L, Bednorz, C, Johanns, V, Pieper, L, Tedin, K, Wieler, L H, Günther, Sebastian
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 21-01-2020
BioMed Central
BMC
Subjects:
Animal husbandry
Antibiotics
Antimicrobial agents
Antimicrobial resistance
Bacteria
Co-selection
Copper
Dietary supplements
Drug resistance
E coli
Escherichia coli
Feed additives
Feed supplementation
Growth rate
Heavy metals
Hogs
Intestine
Metal ions
Microbial drug resistance
Multidrug resistance
Physiology
Pigs
Pork industry
Prebiotics
Probiotics
Studies
Swine
Tetracyclines
Weaning
Zinc
Zinc (Nutrient)
Germany
Pigs
Feed supplementation
Co-selection
Antimicrobial resistance
E. coli
Zinc
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Summary:Following the ban on antimicrobial usage for growth promotion in animal husbandry in the EU, non-antimicrobial agents including heavy metal ions (e.g. zinc and copper), prebiotics or probiotics have been suggested as alternatives. Zinc has extensively been used in pig farming, particularly during weaning of piglets to improve animal health and growth rates. Recent studies, however, have suggested that high dietary zinc feeding during weaning of piglets increases the proportion of multi-drug resistant in the gut, contraindicating the appropriateness of zinc as an alternative. The underlying mechanisms of zinc effects on resistant bacteria remains unclear, but co-selection processes could be involved. In this study, we determined whether isolates from intestinal contents of piglets that had been supplemented with high concentrations of zinc acquired a higher tolerance towards zinc, and whether multi-drug resistant isolates tolerated higher zinc concentrations. In addition, we compared phenotypic zinc and copper resistance of isolates for possible correlation between phenotypic resistance/tolerance to different bivalent ionic metals. We screened phenotypic zinc/copper tolerance of 210 isolates (including antimicrobial resistant, multi-drug resistant, and non-resistant ) selected from two, independent zinc-feeding animal trials by determining a zinc/copper minimal inhibitory concentration (Merlin, Bornheim-Hersel, Germany). In both trials, groups of piglets were supplemented either with high dietary zinc (> 2000 ppm) or control (50-70 ppm, background) concentrations. Our observations showed that high concentration zinc exposure did not have an effect on either zinc or copper phenotypic tolerance of isolates from the animals. No significant association was found between antimicrobial resistance and phenotypic zinc/copper tolerance of the same isolates. Our findings argue against a co-selection mechanism of antimicrobial drug-resistance and zinc tolerance after dietary zinc supplementation in weaning piglets. An explanation for an increase in multi-drug resistant isolates from piglets with high zinc dietary feeding could be that resistant bacteria to antimicrobial agents are more persistent to stresses such as zinc or copper exposure.
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ISSN:1757-4749
1757-4749
DOI:10.1186/s13099-019-0342-5