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Effect of aleurone on glucose & insulin dynamics and gut microbiome in trained horses

Published online by Cambridge University Press:  08 March 2023

B. Boshuizen
Affiliation:
Department of Translational Physiology, Infectiology & Public Health, Research Group of Comparative Physiology, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium Equine Hospital Wolvega, Oldeholtpade, the Netherlands
L. Maré
Affiliation:
Department of Translational Physiology, Infectiology & Public Health, Research Group of Comparative Physiology, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium Department of Small Animals and Horses, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium
C. De Meeus
Affiliation:
Department of Translational Physiology, Infectiology & Public Health, Research Group of Comparative Physiology, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium
L. Devisscher
Affiliation:
Department of Basic and Applied Medical Sciences, Faculty of Medicine and Health Sciences, Ghent University, Ghent, Belgium
C. Vidal Moreno de Vega
Affiliation:
Department of Translational Physiology, Infectiology & Public Health, Research Group of Comparative Physiology, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium
J. De Oliveira
Affiliation:
Cargill, Research and Development Centre Europe, Vilvoorde, Belgium
G. Hosotani
Affiliation:
Cargill, Research and Development Centre Europe, Vilvoorde, Belgium
Y. Gansemans
Affiliation:
Department of Pharmaceutics, Laboratory of Pharmaceutical Biotechnology, Ghent University, Ghent, Belgium
T. Meese
Affiliation:
Department of Pharmaceutics, Laboratory of Pharmaceutical Biotechnology, Ghent University, Ghent, Belgium
F. Van Nieuwerburgh
Affiliation:
Department of Pharmaceutics, Laboratory of Pharmaceutical Biotechnology, Ghent University, Ghent, Belgium
D. Deforce
Affiliation:
Department of Pharmaceutics, Laboratory of Pharmaceutical Biotechnology, Ghent University, Ghent, Belgium
C. Delesalle
Affiliation:
Department of Translational Physiology, Infectiology & Public Health, Research Group of Comparative Physiology, Faculty of Veterinary Medicine, Ghent University, Merelbeke, Belgium
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2023

Aleurone is known to positively modulate glucose and insulin dynamics in pigs and mice and is deemed to be responsible for the positive health effects of whole grain products (Reference Graf, Monk and Lepp1,Reference Theil, Jørgensen and Serena2) . In the past, our research group has reported on a dose-response trial of oral aleurone supplementation on glucose and insulin dynamics in untrained horses (Reference Boshuizen, Moreno de Vega and De Maré3).

We aimed to study whether aleurone has an additional effect on top of training on glucose and insulin dynamics and gut microbiome composition in horses, applying a cross-over training trial model with iso- energetic diets.

Sixteen untrained Standardbred mares (age: 3–4y) were trained for 2 periods of 8 weeks with and without 200 g/day aleurone supplementation. A frequently sampled intravenous glucose tolerance test (FSIGTT) and an oral glucose tolerance test (OGTT) were performed before and after each training period.

For the OGTT outcome the variables included were: Maximumglucose, AUCglucose, Maximum insulin, AUCinsulin, and Time to peak insulin; for the FSIGTT: acute insulin response to glucose (AIRg), insulin sensitivity (SI), glucose effectiveness (Sg) and disposition index (DI) were included. Either a paired t-test was applied or a paired Wilcoxon test (after FSIGTT minimal model analysis). Data preparation and metagenomics analyses were all done using QIIME2 (v2019.4). Prediction of microbiome metabolic output shifts was performed Phylogenetic Investigation of Communities by Reconstruction of Unobserved States (PICRUSt). Microbiome composition (R using ANCOM v2.1) was correlated to FSIGTT data using a Spearman correlation.

Training without aleurone induced significant OGTT curve parameter changes, which were not seen in the FSIGTT. OGTT Maximum insulin was significantly lower (P = 0.005); Time to peak insulin was significantly higher (P = 0.034) and AUC insulin 0–210 was significantly lower after training (P = 0.001). Training with aleurone delayed OGTT Time to peak insulin (P = 0.089). Training with aleurone decreased FSIGTT AIRg (P = 0.030) and increased glucose effectiveness (Sg) (P = 0.031). The FSIGTT basal glucose (GB) also decreased (P = 0.03) when compared to the condition untrained with aleurone. When comparing the FSIGTT variables after training with aleurone to those after training without aleurone AIRg was significantly lower in the aleurone-fed group (P = 0.004). Training with aleurone decreased Desulfovibrio genus abundance (logFC -4.536 FDR = 0.002). Firmicutes families Peptostreptococcaecaea (r = 0.895 P ≤ 0.001) and Lachnospiraceae genus Marvinbryantia (r = 0.732 P = 0.002) showed a positive correlation with AIRg changes after training with aleurone. A negative correlation was found between Sg differences induced by training with aleurone and the relative abundance of the Moraxellaceae family. (r=−0.735, P = 0.002).

Training has a positive effect on insulin dynamics of the OGTT. Aleurone has an additional beneficial effect on glucose and insulin dynamics on top of training in healthy horses. This is attributable to increased tissue glucose uptake capacity and this is correlated to microbiome shifts.

References

Graf, D, Monk, JM, Lepp, D et al. (2019) Nutrients 11.Google Scholar
Theil, PK, Jørgensen, H, Serena, A et al. (2011) Br J Nutr 105, 373383.CrossRefGoogle Scholar
Boshuizen, B, Moreno de Vega, CV, De Maré, L, et al. (2021) Front Vet Sci 8, 642809.CrossRefGoogle Scholar