Batch effect exerts a bigger influence on the rat urinary metabolome and gut microbiota than uraemia: a cautionary tale
Batch effect exerts a bigger influence on the rat urinary metabolome and gut microbiota than uraemia: a cautionary tale
BACKGROUND: Rodent models are invaluable for studying biological processes in the context of whole organisms. The reproducibility of such research is based on an assumption of metabolic similarity between experimental animals, controlled for by breeding and housing strategies that minimise genetic and environmental variation. Here, we set out to demonstrate the effect of experimental uraemia on the rat urinary metabolome and gut microbiome but found instead that the effect of vendor shipment batch was larger in both areas than that of uraemia.
RESULTS: Twenty four Wistar rats obtained from the same commercial supplier in two separate shipment batches underwent either subtotal nephrectomy or sham procedures. All animals undergoing subtotal nephrectomy developed an expected uraemic phenotype. The urinary metabolome was studied using 1H-NMR spectroscopy and found to vary significantly between animals from different batches, with substantial differences in concentrations of a broad range of substances including lactate, acetate, glucose, amino acids, amines and benzoate derivatives. In animals from one batch, there was a complete absence of the microbiome-associated urinary metabolite hippurate, which was present in significant concentrations in animals from the other batch. These differences were so prominent that we would have drawn quite different conclusions about the effect of uraemia on urinary phenotype depending on which batch of animals we had used. Corresponding differences were seen in the gut microbiota between animals in different batches when assessed by the sequencing of 16S rRNA gene amplicons, with higher alpha diversity and different distributions of Proteobacteria subtaxa and short-chain fatty acid producing bacteria in the second batch compared to the first. Whilst we also demonstrated differences in both the urinary metabolome and gut microbiota associated with uraemia, these effects were smaller in size than those associated with shipment batch.
CONCLUSIONS: These results challenge the assumption that experimental animals obtained from the same supplier are metabolically comparable, and provide metabolomic evidence that batch-to-batch variations in the microbiome of experimental animals are significant confounders in an experimental study. We discuss strategies for reducing such variability and the need for transparency in research publications about the supply of experimental animals.
1-10
Randall, David William
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Kieswich, Julius
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Swann, Jonathan
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McCafferty, Kieran
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Thiemermann, Christoph
5bac317f-6893-4a6a-9bbf-c493fbf2d912
Curtis, Michael
72c9f3ee-a355-469f-8d65-02031c124018
Hoyles, Lesley
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Yaqoob, Muhammed Magdi
7ae301db-7bea-4a36-8512-4e9758bd2a3b
2 September 2019
Randall, David William
888a0f00-b3c6-48f5-a418-ce5328dcdafe
Kieswich, Julius
5ece891e-c178-40e8-83a9-f53eb0e3cbff
Swann, Jonathan
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
McCafferty, Kieran
b958049e-7b96-45cd-b384-32fde4d84aaf
Thiemermann, Christoph
5bac317f-6893-4a6a-9bbf-c493fbf2d912
Curtis, Michael
72c9f3ee-a355-469f-8d65-02031c124018
Hoyles, Lesley
b066cc19-0372-48ca-a8a4-213c0b66cc74
Yaqoob, Muhammed Magdi
7ae301db-7bea-4a36-8512-4e9758bd2a3b
Randall, David William, Kieswich, Julius, Swann, Jonathan, McCafferty, Kieran, Thiemermann, Christoph, Curtis, Michael, Hoyles, Lesley and Yaqoob, Muhammed Magdi
(2019)
Batch effect exerts a bigger influence on the rat urinary metabolome and gut microbiota than uraemia: a cautionary tale.
Microbiome, 7 (1), .
(doi:10.1186/s40168-019-0738-y).
Abstract
BACKGROUND: Rodent models are invaluable for studying biological processes in the context of whole organisms. The reproducibility of such research is based on an assumption of metabolic similarity between experimental animals, controlled for by breeding and housing strategies that minimise genetic and environmental variation. Here, we set out to demonstrate the effect of experimental uraemia on the rat urinary metabolome and gut microbiome but found instead that the effect of vendor shipment batch was larger in both areas than that of uraemia.
RESULTS: Twenty four Wistar rats obtained from the same commercial supplier in two separate shipment batches underwent either subtotal nephrectomy or sham procedures. All animals undergoing subtotal nephrectomy developed an expected uraemic phenotype. The urinary metabolome was studied using 1H-NMR spectroscopy and found to vary significantly between animals from different batches, with substantial differences in concentrations of a broad range of substances including lactate, acetate, glucose, amino acids, amines and benzoate derivatives. In animals from one batch, there was a complete absence of the microbiome-associated urinary metabolite hippurate, which was present in significant concentrations in animals from the other batch. These differences were so prominent that we would have drawn quite different conclusions about the effect of uraemia on urinary phenotype depending on which batch of animals we had used. Corresponding differences were seen in the gut microbiota between animals in different batches when assessed by the sequencing of 16S rRNA gene amplicons, with higher alpha diversity and different distributions of Proteobacteria subtaxa and short-chain fatty acid producing bacteria in the second batch compared to the first. Whilst we also demonstrated differences in both the urinary metabolome and gut microbiota associated with uraemia, these effects were smaller in size than those associated with shipment batch.
CONCLUSIONS: These results challenge the assumption that experimental animals obtained from the same supplier are metabolically comparable, and provide metabolomic evidence that batch-to-batch variations in the microbiome of experimental animals are significant confounders in an experimental study. We discuss strategies for reducing such variability and the need for transparency in research publications about the supply of experimental animals.
Text
s40168-019-0738-y
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Accepted/In Press date: 16 August 2019
Published date: 2 September 2019
Identifiers
Local EPrints ID: 440862
URI: http://eprints.soton.ac.uk/id/eprint/440862
ISSN: 2049-2618
PURE UUID: 3764381b-4658-4b77-8978-64ecb2e1c55e
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Date deposited: 20 May 2020 16:35
Last modified: 17 Mar 2024 04:00
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Contributors
Author:
David William Randall
Author:
Julius Kieswich
Author:
Kieran McCafferty
Author:
Christoph Thiemermann
Author:
Michael Curtis
Author:
Lesley Hoyles
Author:
Muhammed Magdi Yaqoob
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