Application of 1H NMR spectroscopy to the metabolic phenotyping of rodent brain extracts: a metabonomic study of gut microbial influence on host brain metabolism
Application of 1H NMR spectroscopy to the metabolic phenotyping of rodent brain extracts: a metabonomic study of gut microbial influence on host brain metabolism
1H NMR Spectroscopy has been applied to determine the neurochemical profiles of brain extracts from the frontal cortex and hippocampal regions of germ free and normal mice and rats. The results revealed a number of differences between germ free (GF) and conventional (CV) rats or specific pathogen-free (SPF) mice with microbiome-associated metabolic variation found to be both species- and region-dependent. In the mouse, the GF frontal cortex contained lower amounts of creatine, N-acetyl-aspartate (NAA), glycerophosphocholine and lactate, but greater amounts of choline compared to that of specific pathogen free (SPF) mice. In the hippocampus, the GF mice had greater creatine, NAA, lactate and taurine content compared to those of the SPF animals, but lower relative quantities of succinate and an unidentified lipid-related component. The GF rat frontal cortex contained higher relative quantities of lactate, creatine and NAA compared to the CV animals whilst the GF hippocampus was characterized by higher taurine and phosphocholine concentrations and lower quantities of NAA, N-acetylaspartylglutamate and choline compared to the CV animals. Of note is that, in both rat and mouse brain extracts, concentrations of hippocampal taurine were found to be greater in the absence of an established microbiome. The results provide further evidence that brain biochemistry can be influenced by gut microbial status, specifically metabolites involved in energy metabolism demonstrating biochemical dialogue between the microbiome and brain.
Animals, Brain, Dipeptides, Gastrointestinal Microbiome, Magnetic Resonance Spectroscopy, Metabolomics, Mice, Rats
141-146
Swann, J.R.
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Garcia-Perez, I.
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Braniste, V.
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Wilson, I.D.
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Sidaway, J.E.
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Nicholson, J.K.
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Pettersson, S.
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Holmes, E.
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5 September 2017
Swann, J.R.
7c11a66b-f4b8-4dbf-aa17-ad8b0561b85c
Garcia-Perez, I.
fa8a8c5b-9092-47e8-b7d1-7d231459eae4
Braniste, V.
98745bf4-3f14-4121-88c6-3f19dec2c0b9
Wilson, I.D.
ca78eff4-c7f2-4c58-a49d-29071105d2a7
Sidaway, J.E.
923e9eeb-28a2-4fea-953e-fe43b7c4d652
Nicholson, J.K.
0d84b629-3beb-4ac2-a9d3-db294b0a442e
Pettersson, S.
ff318b07-d644-4209-a854-07ed35b9ce87
Holmes, E.
7ccba2dd-cbc0-4d91-bfb7-a270c14cc323
Swann, J.R., Garcia-Perez, I., Braniste, V., Wilson, I.D., Sidaway, J.E., Nicholson, J.K., Pettersson, S. and Holmes, E.
(2017)
Application of 1H NMR spectroscopy to the metabolic phenotyping of rodent brain extracts: a metabonomic study of gut microbial influence on host brain metabolism.
Journal of Pharmaceutical and Biomedical Analysis, 143, .
(doi:10.1016/j.jpba.2017.05.040).
Abstract
1H NMR Spectroscopy has been applied to determine the neurochemical profiles of brain extracts from the frontal cortex and hippocampal regions of germ free and normal mice and rats. The results revealed a number of differences between germ free (GF) and conventional (CV) rats or specific pathogen-free (SPF) mice with microbiome-associated metabolic variation found to be both species- and region-dependent. In the mouse, the GF frontal cortex contained lower amounts of creatine, N-acetyl-aspartate (NAA), glycerophosphocholine and lactate, but greater amounts of choline compared to that of specific pathogen free (SPF) mice. In the hippocampus, the GF mice had greater creatine, NAA, lactate and taurine content compared to those of the SPF animals, but lower relative quantities of succinate and an unidentified lipid-related component. The GF rat frontal cortex contained higher relative quantities of lactate, creatine and NAA compared to the CV animals whilst the GF hippocampus was characterized by higher taurine and phosphocholine concentrations and lower quantities of NAA, N-acetylaspartylglutamate and choline compared to the CV animals. Of note is that, in both rat and mouse brain extracts, concentrations of hippocampal taurine were found to be greater in the absence of an established microbiome. The results provide further evidence that brain biochemistry can be influenced by gut microbial status, specifically metabolites involved in energy metabolism demonstrating biochemical dialogue between the microbiome and brain.
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Accepted/In Press date: 25 May 2017
e-pub ahead of print date: 31 May 2017
Published date: 5 September 2017
Keywords:
Animals, Brain, Dipeptides, Gastrointestinal Microbiome, Magnetic Resonance Spectroscopy, Metabolomics, Mice, Rats
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Local EPrints ID: 440846
URI: http://eprints.soton.ac.uk/id/eprint/440846
ISSN: 0731-7085
PURE UUID: e729aeb4-ef87-4c0d-b210-b0107484a3b0
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Date deposited: 20 May 2020 16:31
Last modified: 17 Mar 2024 04:00
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Contributors
Author:
I. Garcia-Perez
Author:
V. Braniste
Author:
I.D. Wilson
Author:
J.E. Sidaway
Author:
J.K. Nicholson
Author:
S. Pettersson
Author:
E. Holmes
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