The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs

Institut for Veterinær- og Husdyrvidenskab

The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs. / Tams, Katrine Wegener; Larsen, Inge; Hansen, Julie Elvekjær; Spiegelhauer, Henrik; Strøm-Hansen, Alexander Damm; Rasmussen, Sophia; Ingham, Anna Cäcilia; Kalmar, Lajos; Kean, Iain Robert Louis; Angen, Øystein; Holmes, Mark A.; Pedersen, Karl; Jelsbak, Lars; Folkesson, Anders; Larsen, Anders Rhod; Strube, Mikael Lenz.

I: Animal Microbiome, Bind 5, Nr. 1, 39, 2023.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Tams, KW, Larsen, I, Hansen, JE, Spiegelhauer, H, Strøm-Hansen, AD, Rasmussen, S, Ingham, AC, Kalmar, L, Kean, IRL, Angen, Ø, Holmes, MA, Pedersen, K, Jelsbak, L, Folkesson, A, Larsen, AR & Strube, ML 2023, 'The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs', Animal Microbiome, bind 5, nr. 1, 39. https://doi.org/10.1186/s42523-023-00258-4

APA

Tams, K. W., Larsen, I., Hansen, J. E., Spiegelhauer, H., Strøm-Hansen, A. D., Rasmussen, S., Ingham, A. C., Kalmar, L., Kean, I. R. L., Angen, Ø., Holmes, M. A., Pedersen, K., Jelsbak, L., Folkesson, A., Larsen, A. R., & Strube, M. L. (2023). The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs. Animal Microbiome, 5(1), [39]. https://doi.org/10.1186/s42523-023-00258-4

Vancouver

Tams KW, Larsen I, Hansen JE, Spiegelhauer H, Strøm-Hansen AD, Rasmussen S o.a. The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs. Animal Microbiome. 2023;5(1). 39. https://doi.org/10.1186/s42523-023-00258-4

Author

Tams, Katrine Wegener ; Larsen, Inge ; Hansen, Julie Elvekjær ; Spiegelhauer, Henrik ; Strøm-Hansen, Alexander Damm ; Rasmussen, Sophia ; Ingham, Anna Cäcilia ; Kalmar, Lajos ; Kean, Iain Robert Louis ; Angen, Øystein ; Holmes, Mark A. ; Pedersen, Karl ; Jelsbak, Lars ; Folkesson, Anders ; Larsen, Anders Rhod ; Strube, Mikael Lenz. / The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs. I: Animal Microbiome. 2023 ; Bind 5, Nr. 1.

Bibtex

@article{e3ad09b01d24419db1e850c830826254,

title = "The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs",

abstract = "Antibiotics are widely used in pig farming across the world which has led to concerns about the potential impact on human health through the selection of antibiotic resistant pathogenic bacteria. This worry has resulted in the development of a production scheme known as pigs Raised Without Antibiotics (RWA), in which pigs are produced in commercial farms, but are ear-tagged as RWA until slaughter unless they receive treatment, thus allowing the farmer to sell the pigs either as premium priced RWA or as conventional meat. Development of antibiotic resistance in pig farming has been studied in national surveys of antibiotic usage and resistance, as well as in experimental studies of groups of pigs, but not in individual pigs followed longitudinally in a commercial pig farm. In this study, a cohort of RWA designated pigs were sampled at 10 time points from birth until slaughter along with pen-mates treated with antibiotics at the same farm. From these samples, the microbiome, determined using 16S sequencing, and the resistome, as determined using qPCR for 82 resistance genes, was investigated, allowing us to examine the difference between RWA pigs and antibiotic treated pigs. We furthermore included 176 additional pigs from six different RWA farms which were sampled at the slaughterhouse as an endpoint to substantiate the cohort as well as for evaluation of intra-farm variability. The results showed a clear effect of age in both the microbiome and resistome composition from early life up until slaughter. As a function of antibiotic treatment, however, we observed a small but significant divergence between treated and untreated animals in their microbiome composition immediately following treatment, which disappeared before 8 weeks of age. The effect on the resistome was evident and an effect of treatment could still be detected at week 8. In animals sampled at the slaughterhouse, we observed no difference in the microbiome or the resistome as a result of treatment status but did see a strong effect of farm origin. Network analysis of co-occurrence of microbiome and resistome data suggested that some resistance genes may be transferred through mobile genetic elements, so we used Hi-C metagenomics on a subset of samples to investigate this. We conclude that antibiotic treatment has a differential effect on the microbiome vs. the resistome and that although resistance gene load is increased by antibiotic treatment load, this effect disappears before slaughter. More studies are needed to elucidate the optimal way to rear pigs without antibiotics.",

keywords = "Antibiotic resistance, Metagenomes, Microbiome, Pig farming",

author = "Tams, {Katrine Wegener} and Inge Larsen and Hansen, {Julie Elvekj{\ae}r} and Henrik Spiegelhauer and Str{\o}m-Hansen, {Alexander Damm} and Sophia Rasmussen and Ingham, {Anna C{\"a}cilia} and Lajos Kalmar and Kean, {Iain Robert Louis} and {\O}ystein Angen and Holmes, {Mark A.} and Karl Pedersen and Lars Jelsbak and Anders Folkesson and Larsen, {Anders Rhod} and Strube, {Mikael Lenz}",

note = "Publisher Copyright: {\textcopyright} 2023, BioMed Central Ltd.",

year = "2023",

doi = "10.1186/s42523-023-00258-4",

language = "English",

volume = "5",

journal = "BMC Animal Microbiome",

issn = "2524-4671",

publisher = "BioMed Central",

number = "1",

}

RIS

TY - JOUR

T1 - The effects of antibiotic use on the dynamics of the microbiome and resistome in pigs

AU - Tams, Katrine Wegener

AU - Larsen, Inge

AU - Hansen, Julie Elvekjær

AU - Spiegelhauer, Henrik

AU - Strøm-Hansen, Alexander Damm

AU - Rasmussen, Sophia

AU - Ingham, Anna Cäcilia

AU - Kalmar, Lajos

AU - Kean, Iain Robert Louis

AU - Angen, Øystein

AU - Holmes, Mark A.

AU - Pedersen, Karl

AU - Jelsbak, Lars

AU - Folkesson, Anders

AU - Larsen, Anders Rhod

AU - Strube, Mikael Lenz

PY - 2023

Y1 - 2023

N2 - Antibiotics are widely used in pig farming across the world which has led to concerns about the potential impact on human health through the selection of antibiotic resistant pathogenic bacteria. This worry has resulted in the development of a production scheme known as pigs Raised Without Antibiotics (RWA), in which pigs are produced in commercial farms, but are ear-tagged as RWA until slaughter unless they receive treatment, thus allowing the farmer to sell the pigs either as premium priced RWA or as conventional meat. Development of antibiotic resistance in pig farming has been studied in national surveys of antibiotic usage and resistance, as well as in experimental studies of groups of pigs, but not in individual pigs followed longitudinally in a commercial pig farm. In this study, a cohort of RWA designated pigs were sampled at 10 time points from birth until slaughter along with pen-mates treated with antibiotics at the same farm. From these samples, the microbiome, determined using 16S sequencing, and the resistome, as determined using qPCR for 82 resistance genes, was investigated, allowing us to examine the difference between RWA pigs and antibiotic treated pigs. We furthermore included 176 additional pigs from six different RWA farms which were sampled at the slaughterhouse as an endpoint to substantiate the cohort as well as for evaluation of intra-farm variability. The results showed a clear effect of age in both the microbiome and resistome composition from early life up until slaughter. As a function of antibiotic treatment, however, we observed a small but significant divergence between treated and untreated animals in their microbiome composition immediately following treatment, which disappeared before 8 weeks of age. The effect on the resistome was evident and an effect of treatment could still be detected at week 8. In animals sampled at the slaughterhouse, we observed no difference in the microbiome or the resistome as a result of treatment status but did see a strong effect of farm origin. Network analysis of co-occurrence of microbiome and resistome data suggested that some resistance genes may be transferred through mobile genetic elements, so we used Hi-C metagenomics on a subset of samples to investigate this. We conclude that antibiotic treatment has a differential effect on the microbiome vs. the resistome and that although resistance gene load is increased by antibiotic treatment load, this effect disappears before slaughter. More studies are needed to elucidate the optimal way to rear pigs without antibiotics.

AB - Antibiotics are widely used in pig farming across the world which has led to concerns about the potential impact on human health through the selection of antibiotic resistant pathogenic bacteria. This worry has resulted in the development of a production scheme known as pigs Raised Without Antibiotics (RWA), in which pigs are produced in commercial farms, but are ear-tagged as RWA until slaughter unless they receive treatment, thus allowing the farmer to sell the pigs either as premium priced RWA or as conventional meat. Development of antibiotic resistance in pig farming has been studied in national surveys of antibiotic usage and resistance, as well as in experimental studies of groups of pigs, but not in individual pigs followed longitudinally in a commercial pig farm. In this study, a cohort of RWA designated pigs were sampled at 10 time points from birth until slaughter along with pen-mates treated with antibiotics at the same farm. From these samples, the microbiome, determined using 16S sequencing, and the resistome, as determined using qPCR for 82 resistance genes, was investigated, allowing us to examine the difference between RWA pigs and antibiotic treated pigs. We furthermore included 176 additional pigs from six different RWA farms which were sampled at the slaughterhouse as an endpoint to substantiate the cohort as well as for evaluation of intra-farm variability. The results showed a clear effect of age in both the microbiome and resistome composition from early life up until slaughter. As a function of antibiotic treatment, however, we observed a small but significant divergence between treated and untreated animals in their microbiome composition immediately following treatment, which disappeared before 8 weeks of age. The effect on the resistome was evident and an effect of treatment could still be detected at week 8. In animals sampled at the slaughterhouse, we observed no difference in the microbiome or the resistome as a result of treatment status but did see a strong effect of farm origin. Network analysis of co-occurrence of microbiome and resistome data suggested that some resistance genes may be transferred through mobile genetic elements, so we used Hi-C metagenomics on a subset of samples to investigate this. We conclude that antibiotic treatment has a differential effect on the microbiome vs. the resistome and that although resistance gene load is increased by antibiotic treatment load, this effect disappears before slaughter. More studies are needed to elucidate the optimal way to rear pigs without antibiotics.

KW - Antibiotic resistance

KW - Metagenomes

KW - Microbiome

KW - Pig farming

U2 - 10.1186/s42523-023-00258-4

DO - 10.1186/s42523-023-00258-4

M3 - Journal article

C2 - 37605221

AN - SCOPUS:85168482114

VL - 5

JO - BMC Animal Microbiome

JF - BMC Animal Microbiome

SN - 2524-4671

IS - 1

M1 - 39

ER -

ID: 365824104