Transhepatic bile acid kinetics in pigs and humans

Hannah M. Eggink; E. Samuel van Nierop; Marieke G. Schooneman; Anita Boelen; Andries Kalsbeek; Martijn Koehorst; Gabriella A. M. ten Have; L. Maurits de Brauw; Albert K. Groen; Johannes A. Romijn; Nicolaas E. P. Deutz; Maarten R. Soeters

doi:10.1016/j.clnu.2017.06.015

Transhepatic bile acid kinetics in pigs and humans

Hannah M. Eggink
, E. Samuel van Nierop
, Marieke G. Schooneman
, Anita Boelen
, Andries Kalsbeek
, Martijn Koehorst
, Gabriella A. M. ten Have
, L. Maurits de Brauw
, Albert K. Groen
, Johannes A. Romijn
, Nicolaas E. P. Deutz
, Maarten R. Soeters^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

29 Citations (Scopus)

Abstract

Background & aims: Bile acids (BAs) play a key role in lipid uptake and metabolic signalling in different organs including gut, liver, muscle and brown adipose tissue. Portal and peripheral plasma BA concentrations increase after a meal. However, the exact kinetics of postprandial BA metabolism have never been described in great detail. We used a conscious porcine model to investigate postprandial plasma concentrations and transorgan fluxes of BAs, glucose and insulin using the para-aminohippuric acid dilution method.

Methods: Eleven pigs with intravascular catheters received a standard mixed-meal while blood was sampled from different veins such as the portal vein, abdominal aorta and hepatic vein. To translate the data to humans, fasted venous and portal blood was sampled from non-diabetic obese patients during gastric by-pass surgery.

Results: The majority of the plasma bile acid pool and postprandial response consisted of glycine-conjugated forms of primary bile acids. Conjugated bile acids were more efficiently cleared by the liver than unconjugated forms. The timing and size of the postprandial response showed large interindividual variability for bile acids compared to glucose and insulin.

Conclusions: The liver selectively extracts most BAs and BAs with highest affinity for the most important metabolic BA receptor, TGR5, are typically low in both porcine and human peripheral circulation. Our findings raise questions about the magnitude of a peripheral TGR5 signal and its ultimate clinical application. (C) 2017 Elsevier Ltd and European Society for Clinical Nutrition and Metabolism. All rights reserved.

Original language	English
Pages (from-to)	1406-1414
Number of pages	9
Journal	Clinical Nutrition
Volume	37
Issue number	4
DOIs	https://doi.org/10.1016/j.clnu.2017.06.015
Publication status	Published - Aug-2018

Keywords

Bile acids
TGR5
Porcine
Postprandial
Portal concentrations
FARNESOID-X-RECEPTOR
CHENODEOXYCHOLIC ACID
NUCLEAR RECEPTORS
HEALTHY MAN
LIVER
METABOLISM
SERUM
IDENTIFICATION
BIOSYNTHESIS
HOMEOSTASIS

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@article{fa79752d08594b3b9cc8f58bd16cffd7,

title = "Transhepatic bile acid kinetics in pigs and humans",

abstract = "Background \& aims: Bile acids (BAs) play a key role in lipid uptake and metabolic signalling in different organs including gut, liver, muscle and brown adipose tissue. Portal and peripheral plasma BA concentrations increase after a meal. However, the exact kinetics of postprandial BA metabolism have never been described in great detail. We used a conscious porcine model to investigate postprandial plasma concentrations and transorgan fluxes of BAs, glucose and insulin using the para-aminohippuric acid dilution method.Methods: Eleven pigs with intravascular catheters received a standard mixed-meal while blood was sampled from different veins such as the portal vein, abdominal aorta and hepatic vein. To translate the data to humans, fasted venous and portal blood was sampled from non-diabetic obese patients during gastric by-pass surgery.Results: The majority of the plasma bile acid pool and postprandial response consisted of glycine-conjugated forms of primary bile acids. Conjugated bile acids were more efficiently cleared by the liver than unconjugated forms. The timing and size of the postprandial response showed large interindividual variability for bile acids compared to glucose and insulin.Conclusions: The liver selectively extracts most BAs and BAs with highest affinity for the most important metabolic BA receptor, TGR5, are typically low in both porcine and human peripheral circulation. Our findings raise questions about the magnitude of a peripheral TGR5 signal and its ultimate clinical application. (C) 2017 Elsevier Ltd and European Society for Clinical Nutrition and Metabolism. All rights reserved.",

keywords = "Bile acids, TGR5, Porcine, Postprandial, Portal concentrations, FARNESOID-X-RECEPTOR, CHENODEOXYCHOLIC ACID, NUCLEAR RECEPTORS, HEALTHY MAN, LIVER, METABOLISM, SERUM, IDENTIFICATION, BIOSYNTHESIS, HOMEOSTASIS",

author = "Eggink, \{Hannah M.\} and \{van Nierop\}, \{E. Samuel\} and Schooneman, \{Marieke G.\} and Anita Boelen and Andries Kalsbeek and Martijn Koehorst and \{ten Have\}, \{Gabriella A. M.\} and \{de Brauw\}, \{L. Maurits\} and Groen, \{Albert K.\} and Romijn, \{Johannes A.\} and Deutz, \{Nicolaas E. P.\} and Soeters, \{Maarten R.\}",

year = "2018",

month = aug,

doi = "10.1016/j.clnu.2017.06.015",

language = "English",

volume = "37",

pages = "1406--1414",

journal = "Clinical Nutrition",

issn = "0261-5614",

publisher = "Churchill Livingstone",

number = "4",

}

TY - JOUR

T1 - Transhepatic bile acid kinetics in pigs and humans

AU - Eggink, Hannah M.

AU - van Nierop, E. Samuel

AU - Schooneman, Marieke G.

AU - Boelen, Anita

AU - Kalsbeek, Andries

AU - Koehorst, Martijn

AU - ten Have, Gabriella A. M.

AU - de Brauw, L. Maurits

AU - Groen, Albert K.

AU - Romijn, Johannes A.

AU - Deutz, Nicolaas E. P.

AU - Soeters, Maarten R.

PY - 2018/8

Y1 - 2018/8

N2 - Background & aims: Bile acids (BAs) play a key role in lipid uptake and metabolic signalling in different organs including gut, liver, muscle and brown adipose tissue. Portal and peripheral plasma BA concentrations increase after a meal. However, the exact kinetics of postprandial BA metabolism have never been described in great detail. We used a conscious porcine model to investigate postprandial plasma concentrations and transorgan fluxes of BAs, glucose and insulin using the para-aminohippuric acid dilution method.Methods: Eleven pigs with intravascular catheters received a standard mixed-meal while blood was sampled from different veins such as the portal vein, abdominal aorta and hepatic vein. To translate the data to humans, fasted venous and portal blood was sampled from non-diabetic obese patients during gastric by-pass surgery.Results: The majority of the plasma bile acid pool and postprandial response consisted of glycine-conjugated forms of primary bile acids. Conjugated bile acids were more efficiently cleared by the liver than unconjugated forms. The timing and size of the postprandial response showed large interindividual variability for bile acids compared to glucose and insulin.Conclusions: The liver selectively extracts most BAs and BAs with highest affinity for the most important metabolic BA receptor, TGR5, are typically low in both porcine and human peripheral circulation. Our findings raise questions about the magnitude of a peripheral TGR5 signal and its ultimate clinical application. (C) 2017 Elsevier Ltd and European Society for Clinical Nutrition and Metabolism. All rights reserved.

AB - Background & aims: Bile acids (BAs) play a key role in lipid uptake and metabolic signalling in different organs including gut, liver, muscle and brown adipose tissue. Portal and peripheral plasma BA concentrations increase after a meal. However, the exact kinetics of postprandial BA metabolism have never been described in great detail. We used a conscious porcine model to investigate postprandial plasma concentrations and transorgan fluxes of BAs, glucose and insulin using the para-aminohippuric acid dilution method.Methods: Eleven pigs with intravascular catheters received a standard mixed-meal while blood was sampled from different veins such as the portal vein, abdominal aorta and hepatic vein. To translate the data to humans, fasted venous and portal blood was sampled from non-diabetic obese patients during gastric by-pass surgery.Results: The majority of the plasma bile acid pool and postprandial response consisted of glycine-conjugated forms of primary bile acids. Conjugated bile acids were more efficiently cleared by the liver than unconjugated forms. The timing and size of the postprandial response showed large interindividual variability for bile acids compared to glucose and insulin.Conclusions: The liver selectively extracts most BAs and BAs with highest affinity for the most important metabolic BA receptor, TGR5, are typically low in both porcine and human peripheral circulation. Our findings raise questions about the magnitude of a peripheral TGR5 signal and its ultimate clinical application. (C) 2017 Elsevier Ltd and European Society for Clinical Nutrition and Metabolism. All rights reserved.

KW - Bile acids

KW - TGR5

KW - Porcine

KW - Postprandial

KW - Portal concentrations

KW - FARNESOID-X-RECEPTOR

KW - CHENODEOXYCHOLIC ACID

KW - NUCLEAR RECEPTORS

KW - HEALTHY MAN

KW - LIVER

KW - METABOLISM

KW - SERUM

KW - IDENTIFICATION

KW - BIOSYNTHESIS

KW - HOMEOSTASIS

U2 - 10.1016/j.clnu.2017.06.015

DO - 10.1016/j.clnu.2017.06.015

M3 - Article

C2 - 28669667

SN - 0261-5614

VL - 37

SP - 1406

EP - 1414

JO - Clinical Nutrition

JF - Clinical Nutrition

IS - 4

ER -

Transhepatic bile acid kinetics in pigs and humans

Abstract

Keywords

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