Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats

Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats

Vitamin B6 plays a crucial role as a cofactor in various enzymatic reactions but bacteria-produced vitamin B6 is not sufficient to meet host requirements. Our objective was to assess the impact of diet-derived vitamin B6 on gut microbiota and host serum metabolomics. Sprague–Dawley rats (<i>n&...

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Main Authors: Shyamchand Mayengbam, Faye Chleilat, Raylene A. Reimer
Format: Article
Language:English
Published: MDPI AG 2020-11-01
Series:Biomedicines
Subjects:
vitamin B6
pyridoxal
gut microbiota
metabolomics
sex effect
Online Access:https://www.mdpi.com/2227-9059/8/11/469
id doaj-472a9fbbf9c246e9b4d89e0988f8c6f2
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spelling doaj-472a9fbbf9c246e9b4d89e0988f8c6f22020-11-25T04:02:09ZengMDPI AGBiomedicines2227-90592020-11-01846946910.3390/biomedicines8110469Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in RatsShyamchand Mayengbam0Faye Chleilat1Raylene A. Reimer2Department of Biochemistry, Memorial University of Newfoundland, St. John’s, NL A1C 5S7, CanadaFaculty of Kinesiology, University of Calgary, Calgary, AB T2N 1N4, CanadaFaculty of Kinesiology, University of Calgary, Calgary, AB T2N 1N4, CanadaVitamin B6 plays a crucial role as a cofactor in various enzymatic reactions but bacteria-produced vitamin B6 is not sufficient to meet host requirements. Our objective was to assess the impact of diet-derived vitamin B6 on gut microbiota and host serum metabolomics. Sprague–Dawley rats (<i>n</i> = 47) were fed a control, low B6 (LB6) or high B6 (HB6) diet for six weeks. Serum and cecal samples were collected for biochemical, metabolomics and gut microbiota profiling. There was a significant sex effect for gut microbiota and several metabolic markers. Bodyweight and percent body fat were significantly reduced in LB6 compared to control and HB6 rats. Microbial beta-diversity differed significantly between LB6 and the control and HB6 rats in both sexes. <i>Lachnospiraceae</i>_NK4A136_group and <i>Bacteroides</i> were the primary taxa driving the difference between LB6 and control. There was a significant separation of cecal and serum metabolites of LB6 compared to control and HB6 rats. In the cecum, arginine biosynthesis was impaired, while vitamin B6 metabolism, lysine degradation and nicotinate and nicotinamide metabolism were impaired in serum metabolite profiles. Cecal propionate and butyrate were significantly reduced in LB6 rats irrespective of sex. Host vitamin B6 deficiency but not excess significantly alters gut microbial composition and its metabolites.https://www.mdpi.com/2227-9059/8/11/469vitamin B6pyridoxalgut microbiotametabolomicssex effect
collection DOAJ
language English
format Article
sources DOAJ
author Shyamchand Mayengbam
Faye Chleilat
Raylene A. Reimer
spellingShingle Shyamchand Mayengbam
Faye Chleilat
Raylene A. Reimer
Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats
Biomedicines
vitamin B6
pyridoxal
gut microbiota
metabolomics
sex effect
author_facet Shyamchand Mayengbam
Faye Chleilat
Raylene A. Reimer
author_sort Shyamchand Mayengbam
title Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats
title_short Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats
title_full Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats
title_fullStr Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats
title_full_unstemmed Dietary Vitamin B6 Deficiency Impairs Gut Microbiota and Host and Microbial Metabolites in Rats
title_sort dietary vitamin b6 deficiency impairs gut microbiota and host and microbial metabolites in rats
publisher MDPI AG
series Biomedicines
issn 2227-9059
publishDate 2020-11-01
description Vitamin B6 plays a crucial role as a cofactor in various enzymatic reactions but bacteria-produced vitamin B6 is not sufficient to meet host requirements. Our objective was to assess the impact of diet-derived vitamin B6 on gut microbiota and host serum metabolomics. Sprague–Dawley rats (<i>n</i> = 47) were fed a control, low B6 (LB6) or high B6 (HB6) diet for six weeks. Serum and cecal samples were collected for biochemical, metabolomics and gut microbiota profiling. There was a significant sex effect for gut microbiota and several metabolic markers. Bodyweight and percent body fat were significantly reduced in LB6 compared to control and HB6 rats. Microbial beta-diversity differed significantly between LB6 and the control and HB6 rats in both sexes. <i>Lachnospiraceae</i>_NK4A136_group and <i>Bacteroides</i> were the primary taxa driving the difference between LB6 and control. There was a significant separation of cecal and serum metabolites of LB6 compared to control and HB6 rats. In the cecum, arginine biosynthesis was impaired, while vitamin B6 metabolism, lysine degradation and nicotinate and nicotinamide metabolism were impaired in serum metabolite profiles. Cecal propionate and butyrate were significantly reduced in LB6 rats irrespective of sex. Host vitamin B6 deficiency but not excess significantly alters gut microbial composition and its metabolites.
topic vitamin B6
pyridoxal
gut microbiota
metabolomics
sex effect
url https://www.mdpi.com/2227-9059/8/11/469
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AT fayechleilat dietaryvitaminb6deficiencyimpairsgutmicrobiotaandhostandmicrobialmetabolitesinrats
AT rayleneareimer dietaryvitaminb6deficiencyimpairsgutmicrobiotaandhostandmicrobialmetabolitesinrats
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