A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans

A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans

ABSTRACT Bones have been suggested to be a target for glucagon‐like peptide ‐1 (GLP‐1); however, studies of the effects on human bones so far have given diverging results. We hypothesized that GLP‐1, together with glucagon‐like peptide‐2 and glucose‐dependent insulinotropic polypeptide, plays a role...

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Main Authors: Anne Nissen, Simone Marstrand, Kirsa Skov‐Jeppesen, Lasse Bremholm, Mads Hornum, Ulrik B Andersen, Jens Juul Holst, Mette Marie Rosenkilde, Bolette Hartmann
Format: Article
Language:English
Published: Wiley 2019-10-01
Series:JBMR Plus
Subjects:
BONE RESORPTION
BONE REMODELING
GLUCAGON‐LIKE PEPTIDE‐1
CTX
EXENATIDE
Online Access:https://doi.org/10.1002/jbm4.10209
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spelling doaj-8386fb01f01648fa8553792aca5d4c162021-05-02T03:47:16ZengWileyJBMR Plus2473-40392019-10-01310n/an/a10.1002/jbm4.10209A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in HumansAnne Nissen0Simone Marstrand1Kirsa Skov‐Jeppesen2Lasse Bremholm3Mads Hornum4Ulrik B Andersen5Jens Juul Holst6Mette Marie Rosenkilde7Bolette Hartmann8Department of Biomedical Sciences The Panum Institute, University of Copenhagen Copenhagen DenmarkDepartment of Biomedical Sciences The Panum Institute, University of Copenhagen Copenhagen DenmarkDepartment of Biomedical Sciences The Panum Institute, University of Copenhagen Copenhagen DenmarkDepartment of Surgery (Gastroenterology Section) Zealand University Hospital, University of Copenhagen Copenhagen DenmarkDepartment of Nephrology Rigshospitalet Copenhagen DenmarkDepartment of Clinical Physiology and Nuclear Medicine and PET Rigshospitalet (Glostrup Section), University of Copenhagen Copenhagen DenmarkDepartment of Biomedical Sciences The Panum Institute, University of Copenhagen Copenhagen DenmarkDepartment of Biomedical Sciences The Panum Institute, University of Copenhagen Copenhagen DenmarkDepartment of Biomedical Sciences The Panum Institute, University of Copenhagen Copenhagen DenmarkABSTRACT Bones have been suggested to be a target for glucagon‐like peptide ‐1 (GLP‐1); however, studies of the effects on human bones so far have given diverging results. We hypothesized that GLP‐1, together with glucagon‐like peptide‐2 and glucose‐dependent insulinotropic polypeptide, plays a role in the gut–bone axis. We examined the acute effect of three GLP‐1 receptor ligands [GLP‐1 (7‐36)amide, GLP‐1 (9‐36)amide, and exenatide] on markers of bone remodeling. Eight healthy, normal‐weight participants, with a mean age of 24.3 years, were studied for 4 days in a double‐blinded, randomized clinical trial. Blood was collected before and after s.c. injection of GLP‐1 (7‐36)amide (1.5 nmol/kg), GLP‐1 (9‐36)amide (1.5 nmol/kg), exenatide (2.4 nmol/subject), or saline. Plasma was analyzed for bone markers and for osteoprotegerin (OPG), PTH, and IGF‐1 levels. All ligands were tested in vitro for their cAMP‐inducing activity on the human GLP‐1 receptor. GLP‐1 (7‐36)amide decreased CTX‐levels, compared with placebo (area under the curve [AUC] ±SD 0 to 120 min = –2143 ± 1294 % × min versus –883 ± 1557 % × min; p < 0.05). No difference was observed between placebo and GLP‐1 (9‐36)amide, or between placebo and exenatide, although exenatide had a similar potency as GLP‐1 (7‐36)amide for cAMP formation in vitro (EC50 of 0.093 and 0.054 nmol/L). However, exenatide reached maximum plasma concentration at 90 min versus 15 min for GLP‐1 (7‐36)amide, and plasma CTX was significantly decreased during the second hour of the study after exenatide injections compared with placebo (AUC ±SD –463.1 ± 218 % × min and –136 ± 91 % × min; p < 0.05). There was no effect of the injections on bone formation markers (P1NP and osteocalcin) or on OPG, PTH and IGF‐1 levels. In conclusion, we show that GLP‐1 receptor agonists, but not the primary metabolite GLP‐1 (9‐36)amide, decrease bone resorption, and suggest that GLP‐1 may be part of the gut–bone axis. © 2019 The Authors. JBMR Plus is published by Wiley Periodicals, Inc. on behalf of the American Society for Bone and Mineral Research.https://doi.org/10.1002/jbm4.10209BONE RESORPTIONBONE REMODELINGGLUCAGON‐LIKE PEPTIDE‐1CTXEXENATIDE
collection DOAJ
language English
format Article
sources DOAJ
author Anne Nissen
Simone Marstrand
Kirsa Skov‐Jeppesen
Lasse Bremholm
Mads Hornum
Ulrik B Andersen
Jens Juul Holst
Mette Marie Rosenkilde
Bolette Hartmann
spellingShingle Anne Nissen
Simone Marstrand
Kirsa Skov‐Jeppesen
Lasse Bremholm
Mads Hornum
Ulrik B Andersen
Jens Juul Holst
Mette Marie Rosenkilde
Bolette Hartmann
A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans
JBMR Plus
BONE RESORPTION
BONE REMODELING
GLUCAGON‐LIKE PEPTIDE‐1
CTX
EXENATIDE
author_facet Anne Nissen
Simone Marstrand
Kirsa Skov‐Jeppesen
Lasse Bremholm
Mads Hornum
Ulrik B Andersen
Jens Juul Holst
Mette Marie Rosenkilde
Bolette Hartmann
author_sort Anne Nissen
title A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans
title_short A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans
title_full A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans
title_fullStr A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans
title_full_unstemmed A Pilot Study Showing Acute Inhibitory Effect of GLP‐1 on the Bone Resorption Marker CTX in Humans
title_sort pilot study showing acute inhibitory effect of glp‐1 on the bone resorption marker ctx in humans
publisher Wiley
series JBMR Plus
issn 2473-4039
publishDate 2019-10-01
description ABSTRACT Bones have been suggested to be a target for glucagon‐like peptide ‐1 (GLP‐1); however, studies of the effects on human bones so far have given diverging results. We hypothesized that GLP‐1, together with glucagon‐like peptide‐2 and glucose‐dependent insulinotropic polypeptide, plays a role in the gut–bone axis. We examined the acute effect of three GLP‐1 receptor ligands [GLP‐1 (7‐36)amide, GLP‐1 (9‐36)amide, and exenatide] on markers of bone remodeling. Eight healthy, normal‐weight participants, with a mean age of 24.3 years, were studied for 4 days in a double‐blinded, randomized clinical trial. Blood was collected before and after s.c. injection of GLP‐1 (7‐36)amide (1.5 nmol/kg), GLP‐1 (9‐36)amide (1.5 nmol/kg), exenatide (2.4 nmol/subject), or saline. Plasma was analyzed for bone markers and for osteoprotegerin (OPG), PTH, and IGF‐1 levels. All ligands were tested in vitro for their cAMP‐inducing activity on the human GLP‐1 receptor. GLP‐1 (7‐36)amide decreased CTX‐levels, compared with placebo (area under the curve [AUC] ±SD 0 to 120 min = –2143 ± 1294 % × min versus –883 ± 1557 % × min; p < 0.05). No difference was observed between placebo and GLP‐1 (9‐36)amide, or between placebo and exenatide, although exenatide had a similar potency as GLP‐1 (7‐36)amide for cAMP formation in vitro (EC50 of 0.093 and 0.054 nmol/L). However, exenatide reached maximum plasma concentration at 90 min versus 15 min for GLP‐1 (7‐36)amide, and plasma CTX was significantly decreased during the second hour of the study after exenatide injections compared with placebo (AUC ±SD –463.1 ± 218 % × min and –136 ± 91 % × min; p < 0.05). There was no effect of the injections on bone formation markers (P1NP and osteocalcin) or on OPG, PTH and IGF‐1 levels. In conclusion, we show that GLP‐1 receptor agonists, but not the primary metabolite GLP‐1 (9‐36)amide, decrease bone resorption, and suggest that GLP‐1 may be part of the gut–bone axis. © 2019 The Authors. JBMR Plus is published by Wiley Periodicals, Inc. on behalf of the American Society for Bone and Mineral Research.
topic BONE RESORPTION
BONE REMODELING
GLUCAGON‐LIKE PEPTIDE‐1
CTX
EXENATIDE
url https://doi.org/10.1002/jbm4.10209
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