Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity

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Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity. / Anhê, Fernando F; Zlitni, Soumaya; Zhang, Song-Yang; Choi, Béatrice So-Yun; Chen, Cassandra Y; Foley, Kevin P; Barra, Nicole G; Surette, Michael G; Biertho, Laurent; Richard, Denis; Tchernof, André; Lam, Tony K T; Marette, Andre; Schertzer, Jonathan.

In: Gut, Vol. 72, 03.2023, p. 460–471.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Anhê, FF, Zlitni, S, Zhang, S-Y, Choi, BS-Y, Chen, CY, Foley, KP, Barra, NG, Surette, MG, Biertho, L, Richard, D, Tchernof, A, Lam, TKT, Marette, A & Schertzer, J 2023, 'Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity', Gut, vol. 72, pp. 460–471. https://doi.org/10.1136/gutjnl-2022-328185

APA

Anhê, F. F., Zlitni, S., Zhang, S-Y., Choi, B. S-Y., Chen, C. Y., Foley, K. P., Barra, N. G., Surette, M. G., Biertho, L., Richard, D., Tchernof, A., Lam, T. K. T., Marette, A., & Schertzer, J. (2023). Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity. Gut, 72, 460–471. https://doi.org/10.1136/gutjnl-2022-328185

Vancouver

Anhê FF, Zlitni S, Zhang S-Y, Choi BS-Y, Chen CY, Foley KP et al. Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity. Gut. 2023 Mar;72:460–471. https://doi.org/10.1136/gutjnl-2022-328185

Author

Anhê, Fernando F ; Zlitni, Soumaya ; Zhang, Song-Yang ; Choi, Béatrice So-Yun ; Chen, Cassandra Y ; Foley, Kevin P ; Barra, Nicole G ; Surette, Michael G ; Biertho, Laurent ; Richard, Denis ; Tchernof, André ; Lam, Tony K T ; Marette, Andre ; Schertzer, Jonathan. / Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity. In: Gut. 2023 ; Vol. 72. pp. 460–471.

Bibtex

@article{c2016126b597429ca3ed141dfca8ce8e,
title = "Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity",
abstract = "Objective Bariatric surgery is an effective treatment for type 2 diabetes (T2D) that changes gut microbial composition. We determined whether the gut microbiota in humans after restrictive or malabsorptive bariatric surgery was sufficient to lower blood glucose.Design Women with obesity and T2D had biliopancreatic diversion with duodenal switch (BPD-DS) or laparoscopic sleeve gastrectomy (LSG). Faecal samples from the same patient before and after each surgery were used to colonise rodents, and determinants of blood glucose control were assessed.Results Glucose tolerance was improved in germ-free mice orally colonised for 7 weeks with human microbiota after either BPD-DS or LSG, whereas food intake, fat mass, insulin resistance, secretion and clearance were unchanged. Mice colonised with microbiota post-BPD-DS had lower villus height/width and crypt depth in the distal jejunum and lower intestinal glucose absorption. Inhibition of sodium-glucose cotransporter (Sglt)1 abrogated microbiota-transmissible improvements in blood glucose control in mice. In specific pathogen-free (SPF) rats, intrajejunal colonisation for 4 weeks with microbiota post-BPD-DS was sufficient to improve blood glucose control, which was negated after intrajejunal Sglt-1 inhibition. Higher Parabacteroides and lower Blautia coincided with improvements in blood glucose control after colonisation with human bacteria post-BPD-DS and LSG.Conclusion Exposure of rodents to human gut microbiota after restrictive or malabsorptive bariatric surgery improves glycaemic control. The gut microbiota after bariatric surgery is a standalone factor that alters upper gut intestinal morphology and lowers Sglt1-mediated intestinal glucose absorption, which improves blood glucose control independently from changes in obesity, insulin or insulin resistance.",
author = "Anh{\^e}, {Fernando F} and Soumaya Zlitni and Song-Yang Zhang and Choi, {B{\'e}atrice So-Yun} and Chen, {Cassandra Y} and Foley, {Kevin P} and Barra, {Nicole G} and Surette, {Michael G} and Laurent Biertho and Denis Richard and Andr{\'e} Tchernof and Lam, {Tony K T} and Andre Marette and Jonathan Schertzer",
year = "2023",
month = mar,
doi = "10.1136/gutjnl-2022-328185",
language = "English",
volume = "72",
pages = "460–471",
journal = "Gut",
issn = "0017-5749",
publisher = "B M J Group",

}

RIS

TY - JOUR

T1 - Human gut microbiota after bariatric surgery alters intestinal morphology and glucose absorption in mice independently of obesity

AU - Anhê, Fernando F

AU - Zlitni, Soumaya

AU - Zhang, Song-Yang

AU - Choi, Béatrice So-Yun

AU - Chen, Cassandra Y

AU - Foley, Kevin P

AU - Barra, Nicole G

AU - Surette, Michael G

AU - Biertho, Laurent

AU - Richard, Denis

AU - Tchernof, André

AU - Lam, Tony K T

AU - Marette, Andre

AU - Schertzer, Jonathan

PY - 2023/3

Y1 - 2023/3

N2 - Objective Bariatric surgery is an effective treatment for type 2 diabetes (T2D) that changes gut microbial composition. We determined whether the gut microbiota in humans after restrictive or malabsorptive bariatric surgery was sufficient to lower blood glucose.Design Women with obesity and T2D had biliopancreatic diversion with duodenal switch (BPD-DS) or laparoscopic sleeve gastrectomy (LSG). Faecal samples from the same patient before and after each surgery were used to colonise rodents, and determinants of blood glucose control were assessed.Results Glucose tolerance was improved in germ-free mice orally colonised for 7 weeks with human microbiota after either BPD-DS or LSG, whereas food intake, fat mass, insulin resistance, secretion and clearance were unchanged. Mice colonised with microbiota post-BPD-DS had lower villus height/width and crypt depth in the distal jejunum and lower intestinal glucose absorption. Inhibition of sodium-glucose cotransporter (Sglt)1 abrogated microbiota-transmissible improvements in blood glucose control in mice. In specific pathogen-free (SPF) rats, intrajejunal colonisation for 4 weeks with microbiota post-BPD-DS was sufficient to improve blood glucose control, which was negated after intrajejunal Sglt-1 inhibition. Higher Parabacteroides and lower Blautia coincided with improvements in blood glucose control after colonisation with human bacteria post-BPD-DS and LSG.Conclusion Exposure of rodents to human gut microbiota after restrictive or malabsorptive bariatric surgery improves glycaemic control. The gut microbiota after bariatric surgery is a standalone factor that alters upper gut intestinal morphology and lowers Sglt1-mediated intestinal glucose absorption, which improves blood glucose control independently from changes in obesity, insulin or insulin resistance.

AB - Objective Bariatric surgery is an effective treatment for type 2 diabetes (T2D) that changes gut microbial composition. We determined whether the gut microbiota in humans after restrictive or malabsorptive bariatric surgery was sufficient to lower blood glucose.Design Women with obesity and T2D had biliopancreatic diversion with duodenal switch (BPD-DS) or laparoscopic sleeve gastrectomy (LSG). Faecal samples from the same patient before and after each surgery were used to colonise rodents, and determinants of blood glucose control were assessed.Results Glucose tolerance was improved in germ-free mice orally colonised for 7 weeks with human microbiota after either BPD-DS or LSG, whereas food intake, fat mass, insulin resistance, secretion and clearance were unchanged. Mice colonised with microbiota post-BPD-DS had lower villus height/width and crypt depth in the distal jejunum and lower intestinal glucose absorption. Inhibition of sodium-glucose cotransporter (Sglt)1 abrogated microbiota-transmissible improvements in blood glucose control in mice. In specific pathogen-free (SPF) rats, intrajejunal colonisation for 4 weeks with microbiota post-BPD-DS was sufficient to improve blood glucose control, which was negated after intrajejunal Sglt-1 inhibition. Higher Parabacteroides and lower Blautia coincided with improvements in blood glucose control after colonisation with human bacteria post-BPD-DS and LSG.Conclusion Exposure of rodents to human gut microbiota after restrictive or malabsorptive bariatric surgery improves glycaemic control. The gut microbiota after bariatric surgery is a standalone factor that alters upper gut intestinal morphology and lowers Sglt1-mediated intestinal glucose absorption, which improves blood glucose control independently from changes in obesity, insulin or insulin resistance.

U2 - 10.1136/gutjnl-2022-328185

DO - 10.1136/gutjnl-2022-328185

M3 - Journal article

C2 - 36008102

VL - 72

SP - 460

EP - 471

JO - Gut

JF - Gut

SN - 0017-5749

ER -

ID: 335349710