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Maternal amoxicillin affects piglets colon microbiota: microbial ecology and metabolomics in a gut model
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Maternal amoxicillin affects piglets colon microbiota: microbial ecology and metabolomics in a gut model
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Journal Article
Maternal amoxicillin affects piglets colon microbiota: microbial ecology and metabolomics in a gut model
2022
Overview
The first weeks of life represent a crucial stage for microbial colonization of the piglets’ gastrointestinal tract. Newborns’ microbiota is unstable and easily subject to changes under stimuli or insults. Nonetheless, the administration of antibiotics to the sow is still considered as common practice in intensive farming for pathological conditions in the postpartum. Therefore, transfer of antibiotic residues through milk may occurs, affecting the piglets’ colon microbiota. In this study, we aimed to extend the knowledge on antibiotic transfer through milk, employing an in vitro dedicated piglet colon model (MICODE—Multi Unit In vitro Colon Model). The authors’ focus was set on the shifts of the piglets’ microbiota composition microbiomics (16S r-DNA MiSeq and qPCR—quantitative polymerase chain reaction) and on the production of microbial metabolites (SPME GC/MS—solid phase micro-extraction gas chromatography/mass spectrometry) in response to milk with different concentrations of amoxicillin. The results showed an effective influence of amoxicillin in piglets’ microbiota and metabolites production; however, without altering the overall biodiversity. The scenario is that of a limitation of pathogens and opportunistic taxa, e.g.,
Staphylococcaceae
and
Enterobacteriaceae
, but also a limitation of commensal dominant
Lactobacillaceae
, a reduction in commensal
Ruminococcaceae
and a depletion in beneficial
Bifidobactericeae
. Lastly, an incremental growth of resistant species, such as
Enterococcaceae
or
Clostridiaceae
, was observed. To the authors’ knowledge, this study is the first evaluating the impact of antibiotic residues towards the piglets’ colon microbiota in an in vitro model, opening the way to include such approach in a pipeline of experiments where a reduced number of animals for testing is employed.
Key points
• Piglet colon model to study antibiotic transfer through milk.
• MICODE resulted a robust and versatile in vitro gut model.
• Towards the “3Rs” Principles to replace, reduce and refine the use of animals used for scientific purposes (Directive 2010/63/UE).
Graphical abstract
Publisher
Springer Berlin Heidelberg,Springer,Springer Nature B.V
