A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice

Research output: Contribution to journalJournal articleResearchpeer-review

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A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice. / Johansen, Valdemar Brimnes Ingemann; Færø, Daisy; Buschard, Karsten; Kristiansen, Karsten; Pociot, Flemming; Kiilerich, Pia; Josefsen, Knud; Haupt-jorgensen, Martin; Antvorskov, Julie Christine.

In: Cells, Vol. 12, No. 12, 1567, 2023.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Johansen, VBI, Færø, D, Buschard, K, Kristiansen, K, Pociot, F, Kiilerich, P, Josefsen, K, Haupt-jorgensen, M & Antvorskov, JC 2023, 'A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice', Cells, vol. 12, no. 12, 1567. https://doi.org/10.3390/cells12121567

APA

Johansen, V. B. I., Færø, D., Buschard, K., Kristiansen, K., Pociot, F., Kiilerich, P., Josefsen, K., Haupt-jorgensen, M., & Antvorskov, J. C. (2023). A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice. Cells, 12(12), [1567]. https://doi.org/10.3390/cells12121567

Vancouver

Johansen VBI, Færø D, Buschard K, Kristiansen K, Pociot F, Kiilerich P et al. A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice. Cells. 2023;12(12). 1567. https://doi.org/10.3390/cells12121567

Author

Johansen, Valdemar Brimnes Ingemann ; Færø, Daisy ; Buschard, Karsten ; Kristiansen, Karsten ; Pociot, Flemming ; Kiilerich, Pia ; Josefsen, Knud ; Haupt-jorgensen, Martin ; Antvorskov, Julie Christine. / A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice. In: Cells. 2023 ; Vol. 12, No. 12.

Bibtex

@article{8501e779b0534074bcef346c091e853c,
title = "A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice",
abstract = "The incidence of the autoimmune disease type 1 diabetes is increasing, likely caused by environmental factors. A gluten-free diet has previously been shown to ameliorate autoimmune diabetes in non-obese diabetic (NOD) mice and humans. Although the exact mechanisms are not understood, interventions influencing the intestinal microbiota early in life affect the risk of type 1 diabetes. Here, we characterize how NOD mice that are fed a gluten-free (GF) diet differ from NOD mice that are fed a gluten-containing standard (STD) diet in terms of their microbiota composition by 16S rRNA gene amplicon sequencing and pancreatic immune environment by real-time quantitative PCR at the prediabetic stage at 6 and 13 weeks of age. Gut microbiota analysis revealed highly distinct microbiota compositions in both the cecum and the colon of GF-fed mice compared with STD-fed mice. The microbiotas of the GF-fed mice were characterized by an increased Firmicutes/Bacteroidetes ratio, an increased abundance of short chain fatty acid (particularly butyrate)-producing bacteria, and a reduced abundance of Lactobacilli compared with STD mice. We found that the insulitis score in the GF mice was significantly reduced compared with the STD mice and that the markers for regulatory T cells and T helper 2 cells were upregulated in the pancreas of the GF mice. In conclusion, a GF diet during pre- and early post-natal life induces shifts in the cecal and colonic microbiota compatible with a less inflammatory environment, providing a likely mechanism for the protective effect of a GF diet in humans.",
author = "Johansen, {Valdemar Brimnes Ingemann} and Daisy F{\ae}r{\o} and Karsten Buschard and Karsten Kristiansen and Flemming Pociot and Pia Kiilerich and Knud Josefsen and Martin Haupt-jorgensen and Antvorskov, {Julie Christine}",
year = "2023",
doi = "10.3390/cells12121567",
language = "English",
volume = "12",
journal = "Cells",
issn = "2073-4409",
publisher = "MDPI AG",
number = "12",

}

RIS

TY - JOUR

T1 - A Gluten-Free Diet during Pregnancy and Early Life Increases Short Chain Fatty Acid-Producing Bacteria and Regulatory T Cells in Prediabetic NOD Mice

AU - Johansen, Valdemar Brimnes Ingemann

AU - Færø, Daisy

AU - Buschard, Karsten

AU - Kristiansen, Karsten

AU - Pociot, Flemming

AU - Kiilerich, Pia

AU - Josefsen, Knud

AU - Haupt-jorgensen, Martin

AU - Antvorskov, Julie Christine

PY - 2023

Y1 - 2023

N2 - The incidence of the autoimmune disease type 1 diabetes is increasing, likely caused by environmental factors. A gluten-free diet has previously been shown to ameliorate autoimmune diabetes in non-obese diabetic (NOD) mice and humans. Although the exact mechanisms are not understood, interventions influencing the intestinal microbiota early in life affect the risk of type 1 diabetes. Here, we characterize how NOD mice that are fed a gluten-free (GF) diet differ from NOD mice that are fed a gluten-containing standard (STD) diet in terms of their microbiota composition by 16S rRNA gene amplicon sequencing and pancreatic immune environment by real-time quantitative PCR at the prediabetic stage at 6 and 13 weeks of age. Gut microbiota analysis revealed highly distinct microbiota compositions in both the cecum and the colon of GF-fed mice compared with STD-fed mice. The microbiotas of the GF-fed mice were characterized by an increased Firmicutes/Bacteroidetes ratio, an increased abundance of short chain fatty acid (particularly butyrate)-producing bacteria, and a reduced abundance of Lactobacilli compared with STD mice. We found that the insulitis score in the GF mice was significantly reduced compared with the STD mice and that the markers for regulatory T cells and T helper 2 cells were upregulated in the pancreas of the GF mice. In conclusion, a GF diet during pre- and early post-natal life induces shifts in the cecal and colonic microbiota compatible with a less inflammatory environment, providing a likely mechanism for the protective effect of a GF diet in humans.

AB - The incidence of the autoimmune disease type 1 diabetes is increasing, likely caused by environmental factors. A gluten-free diet has previously been shown to ameliorate autoimmune diabetes in non-obese diabetic (NOD) mice and humans. Although the exact mechanisms are not understood, interventions influencing the intestinal microbiota early in life affect the risk of type 1 diabetes. Here, we characterize how NOD mice that are fed a gluten-free (GF) diet differ from NOD mice that are fed a gluten-containing standard (STD) diet in terms of their microbiota composition by 16S rRNA gene amplicon sequencing and pancreatic immune environment by real-time quantitative PCR at the prediabetic stage at 6 and 13 weeks of age. Gut microbiota analysis revealed highly distinct microbiota compositions in both the cecum and the colon of GF-fed mice compared with STD-fed mice. The microbiotas of the GF-fed mice were characterized by an increased Firmicutes/Bacteroidetes ratio, an increased abundance of short chain fatty acid (particularly butyrate)-producing bacteria, and a reduced abundance of Lactobacilli compared with STD mice. We found that the insulitis score in the GF mice was significantly reduced compared with the STD mice and that the markers for regulatory T cells and T helper 2 cells were upregulated in the pancreas of the GF mice. In conclusion, a GF diet during pre- and early post-natal life induces shifts in the cecal and colonic microbiota compatible with a less inflammatory environment, providing a likely mechanism for the protective effect of a GF diet in humans.

U2 - 10.3390/cells12121567

DO - 10.3390/cells12121567

M3 - Journal article

C2 - 37371037

VL - 12

JO - Cells

JF - Cells

SN - 2073-4409

IS - 12

M1 - 1567

ER -

ID: 359246213