Glucose-lowering effects and mechanisms of the bile acid-sequestering resin sevelamer

Andreas Brønden; Kristian Mikkelsen; David P. Sonne; Morten Hansen; Christoffer Våben; Maria N. Gabe; Mette Rosenkilde; Valentina Tremaroli; Hao Wu; Fredrik Bäckhed; Jens F. Rehfeld; Jens J. Holst; Tina Vilsbøll; Filip K. Knop

doi:10.1111/dom.13272

Glucose-lowering effects and mechanisms of the bile acid-sequestering resin sevelamer

Andreas Brønden, Kristian Mikkelsen, David P. Sonne, Morten Hansen, Christoffer Våben, Maria N. Gabe, Mette Rosenkilde, Valentina Tremaroli, Hao Wu, Fredrik Bäckhed, Jens F. Rehfeld, Jens J. Holst, Tina Vilsbøll, Filip K. Knop^*

^*Corresponding author af dette arbejde

Institut for Klinisk Medicin

9 Citationer (Scopus)

Abstract

Aims: Sevelamer, a non-absorbable amine-based resin used for treatment of hyperphosphataemia, has been demonstrated to have a marked bile acid-binding potential alongside beneficial effects on lipid and glucose metabolism. The aim of this study was to investigate the glucose-lowering effect and mechanism(s) of sevelamer in patients with type 2 diabetes. Materials and Methods: In this double-blinded randomized controlled trial, we randomized 30 patients with type 2 diabetes to sevelamer (n = 20) or placebo (n = 10). Participants were subjected to standardized 4-hour liquid meal tests at baseline and after 7 days of treatment. The main outcome measure was plasma glucagon-like peptide-1 excursions as measured by area under the curve. In addition, blood was sampled for measurements of glucose, lipids, glucose-dependent insulinotropic polypeptide, C-peptide, glucagon, fibroblast growth factor-19, cholecystokinin and bile acids. Assessments of gastric emptying, resting energy expenditure and gut microbiota composition were performed. Results: Sevelamer elicited a significant placebo-corrected reduction in plasma glucose with concomitant reduced fibroblast growth factor-19 concentrations, increased de novo synthesis of bile acids, a shift towards a more hydrophilic bile acid pool and increased lipogenesis. No glucagon-like peptide-1-mediated effects on insulin, glucagon or gastric emptying were evident, which points to a limited contribution of this incretin hormone to the glucose-lowering effect of sevelamer. Furthermore, no sevelamer-mediated effects on gut microbiota composition or resting energy expenditure were observed. Conclusions: Sevelamer reduced plasma glucose concentrations in patients with type 2 diabetes by mechanisms that seemed to involve decreased intestinal and hepatic bile acid-mediated farnesoid X receptor activation.

Originalsprog	Engelsk
Tidsskrift	Diabetes, Obesity and Metabolism
Vol/bind	20
Udgave nummer	7
Sider (fra-til)	1623-1631
ISSN	1462-8902
DOI	https://doi.org/10.1111/dom.13272
Status	Udgivet - jul. 2018

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Brønden, A., Mikkelsen, K., Sonne, D. P., Hansen, M., Våben, C., Gabe, M. N., Rosenkilde, M., Tremaroli, V., Wu, H., Bäckhed, F., Rehfeld, J. F., Holst, J. J., Vilsbøll, T., & Knop, F. K. (2018). Glucose-lowering effects and mechanisms of the bile acid-sequestering resin sevelamer. Diabetes, Obesity and Metabolism, 20(7), 1623-1631. https://doi.org/10.1111/dom.13272

@article{cd0f7493ed8449d0bd47a43e3c28ad41,

title = "Glucose-lowering effects and mechanisms of the bile acid-sequestering resin sevelamer",

abstract = "Aims: Sevelamer, a non-absorbable amine-based resin used for treatment of hyperphosphataemia, has been demonstrated to have a marked bile acid-binding potential alongside beneficial effects on lipid and glucose metabolism. The aim of this study was to investigate the glucose-lowering effect and mechanism(s) of sevelamer in patients with type 2 diabetes. Materials and Methods: In this double-blinded randomized controlled trial, we randomized 30 patients with type 2 diabetes to sevelamer (n = 20) or placebo (n = 10). Participants were subjected to standardized 4-hour liquid meal tests at baseline and after 7 days of treatment. The main outcome measure was plasma glucagon-like peptide-1 excursions as measured by area under the curve. In addition, blood was sampled for measurements of glucose, lipids, glucose-dependent insulinotropic polypeptide, C-peptide, glucagon, fibroblast growth factor-19, cholecystokinin and bile acids. Assessments of gastric emptying, resting energy expenditure and gut microbiota composition were performed. Results: Sevelamer elicited a significant placebo-corrected reduction in plasma glucose with concomitant reduced fibroblast growth factor-19 concentrations, increased de novo synthesis of bile acids, a shift towards a more hydrophilic bile acid pool and increased lipogenesis. No glucagon-like peptide-1-mediated effects on insulin, glucagon or gastric emptying were evident, which points to a limited contribution of this incretin hormone to the glucose-lowering effect of sevelamer. Furthermore, no sevelamer-mediated effects on gut microbiota composition or resting energy expenditure were observed. Conclusions: Sevelamer reduced plasma glucose concentrations in patients with type 2 diabetes by mechanisms that seemed to involve decreased intestinal and hepatic bile acid-mediated farnesoid X receptor activation.",

keywords = "antidiabetic drug, drug mechanism, GLP-1, glucose metabolism, type 2 diabetes",

author = "Andreas Br{\o}nden and Kristian Mikkelsen and Sonne, {David P.} and Morten Hansen and Christoffer V{\aa}ben and Gabe, {Maria N.} and Mette Rosenkilde and Valentina Tremaroli and Hao Wu and Fredrik B{\"a}ckhed and Rehfeld, {Jens F.} and Holst, {Jens J.} and Tina Vilsb{\o}ll and Knop, {Filip K.}",

year = "2018",

month = jul,

doi = "10.1111/dom.13272",

language = "English",

volume = "20",

pages = "1623--1631",

journal = "Diabetes, Obesity and Metabolism",

issn = "1462-8902",

publisher = "Wiley-Blackwell",

number = "7",

}

TY - JOUR

T1 - Glucose-lowering effects and mechanisms of the bile acid-sequestering resin sevelamer

AU - Brønden, Andreas

AU - Mikkelsen, Kristian

AU - Sonne, David P.

AU - Hansen, Morten

AU - Våben, Christoffer

AU - Gabe, Maria N.

AU - Rosenkilde, Mette

AU - Tremaroli, Valentina

AU - Wu, Hao

AU - Bäckhed, Fredrik

AU - Rehfeld, Jens F.

AU - Holst, Jens J.

AU - Vilsbøll, Tina

AU - Knop, Filip K.

PY - 2018/7

Y1 - 2018/7

N2 - Aims: Sevelamer, a non-absorbable amine-based resin used for treatment of hyperphosphataemia, has been demonstrated to have a marked bile acid-binding potential alongside beneficial effects on lipid and glucose metabolism. The aim of this study was to investigate the glucose-lowering effect and mechanism(s) of sevelamer in patients with type 2 diabetes. Materials and Methods: In this double-blinded randomized controlled trial, we randomized 30 patients with type 2 diabetes to sevelamer (n = 20) or placebo (n = 10). Participants were subjected to standardized 4-hour liquid meal tests at baseline and after 7 days of treatment. The main outcome measure was plasma glucagon-like peptide-1 excursions as measured by area under the curve. In addition, blood was sampled for measurements of glucose, lipids, glucose-dependent insulinotropic polypeptide, C-peptide, glucagon, fibroblast growth factor-19, cholecystokinin and bile acids. Assessments of gastric emptying, resting energy expenditure and gut microbiota composition were performed. Results: Sevelamer elicited a significant placebo-corrected reduction in plasma glucose with concomitant reduced fibroblast growth factor-19 concentrations, increased de novo synthesis of bile acids, a shift towards a more hydrophilic bile acid pool and increased lipogenesis. No glucagon-like peptide-1-mediated effects on insulin, glucagon or gastric emptying were evident, which points to a limited contribution of this incretin hormone to the glucose-lowering effect of sevelamer. Furthermore, no sevelamer-mediated effects on gut microbiota composition or resting energy expenditure were observed. Conclusions: Sevelamer reduced plasma glucose concentrations in patients with type 2 diabetes by mechanisms that seemed to involve decreased intestinal and hepatic bile acid-mediated farnesoid X receptor activation.

AB - Aims: Sevelamer, a non-absorbable amine-based resin used for treatment of hyperphosphataemia, has been demonstrated to have a marked bile acid-binding potential alongside beneficial effects on lipid and glucose metabolism. The aim of this study was to investigate the glucose-lowering effect and mechanism(s) of sevelamer in patients with type 2 diabetes. Materials and Methods: In this double-blinded randomized controlled trial, we randomized 30 patients with type 2 diabetes to sevelamer (n = 20) or placebo (n = 10). Participants were subjected to standardized 4-hour liquid meal tests at baseline and after 7 days of treatment. The main outcome measure was plasma glucagon-like peptide-1 excursions as measured by area under the curve. In addition, blood was sampled for measurements of glucose, lipids, glucose-dependent insulinotropic polypeptide, C-peptide, glucagon, fibroblast growth factor-19, cholecystokinin and bile acids. Assessments of gastric emptying, resting energy expenditure and gut microbiota composition were performed. Results: Sevelamer elicited a significant placebo-corrected reduction in plasma glucose with concomitant reduced fibroblast growth factor-19 concentrations, increased de novo synthesis of bile acids, a shift towards a more hydrophilic bile acid pool and increased lipogenesis. No glucagon-like peptide-1-mediated effects on insulin, glucagon or gastric emptying were evident, which points to a limited contribution of this incretin hormone to the glucose-lowering effect of sevelamer. Furthermore, no sevelamer-mediated effects on gut microbiota composition or resting energy expenditure were observed. Conclusions: Sevelamer reduced plasma glucose concentrations in patients with type 2 diabetes by mechanisms that seemed to involve decreased intestinal and hepatic bile acid-mediated farnesoid X receptor activation.

KW - antidiabetic drug

KW - drug mechanism

KW - GLP-1

KW - glucose metabolism

KW - type 2 diabetes

U2 - 10.1111/dom.13272

DO - 10.1111/dom.13272

M3 - Journal article

C2 - 29493868

AN - SCOPUS:85044428655

SN - 1462-8902

VL - 20

SP - 1623

EP - 1631

JO - Diabetes, Obesity and Metabolism

JF - Diabetes, Obesity and Metabolism

IS - 7

ER -

Glucose-lowering effects and mechanisms of the bile acid-sequestering resin sevelamer

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