Sitagliptin alters bone composition in high-fat-fed mice

Type 2 diabetes mellitus is recognized as a significant risk factor for fragility of bone. Among the newer anti-diabetic agents, dipeptidyl peptidase-4 inhibitors (DPP4i) have been reported to decrease the occurrence of bone fractures although the reason is unclear. The main aim of this study was to...

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Main Authors: Mansur, Sity Aishah, Mieczkowska, Aleksandra, Flatt, Peter R., Chappard, Daniel, Irwin, Nigel, Mabilleau, Guillaume
Format: Article
Language:English
Published: CALCIFIED TISSUE INTERNATIONAL, Springer Link 2018
Subjects:
Online Access:http://eprints.uthm.edu.my/5850/1/AJ%202018%20%28919%29%20Sitagliptin%20alters%20bone%20composition%20in%20high-fat-fed%20mice.pdf
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author Mansur, Sity Aishah
Mieczkowska, Aleksandra
Flatt, Peter R.
Chappard, Daniel
Irwin, Nigel
Mabilleau, Guillaume
author_facet Mansur, Sity Aishah
Mieczkowska, Aleksandra
Flatt, Peter R.
Chappard, Daniel
Irwin, Nigel
Mabilleau, Guillaume
author_sort Mansur, Sity Aishah
collection UTHM
description Type 2 diabetes mellitus is recognized as a significant risk factor for fragility of bone. Among the newer anti-diabetic agents, dipeptidyl peptidase-4 inhibitors (DPP4i) have been reported to decrease the occurrence of bone fractures although the reason is unclear. The main aim of this study was to evaluate the impact of sitagliptin treatment on tissue bone strength and compositional parameters in the high-fat-fed mouse model. Male NIH swiss mice were allowed free access to high-fat diet for 150 days to induce chronic hyperglycemia and insulin resistance. Sitagliptin was administered once daily for 3 weeks. High-fat-fed mice administered with saline were used as controls. Bone strength was assessed at the organ and tissue level by three-point bending and nanoindentation, respectively. Bone microarchitecture was investigated by microcomputed tomography and bone composition was evaluated by Fourier transform infrared imaging and quantitative backscattered electron imaging. Administration of sitagliptin increased non-fasting insulin, improved glucose tolerance and increased insulin sensitivity. This was associated with clear ameliorations in bone strength at the organ and tissue level. No changes in trabecular or cortical microarchitectures were observed. On the other hand, higher values of Camean, Caturn, collagen maturity, mineral/ matrix ratio, mineral maturity and crystal size index were evidenced after sitagliptin treatment. Correlation analysis significantly linked the modifications of bone strength to changes in bone compositional parameters. These results bring new light on the mode of action of sitagliptin on bone physiology and demonstrate a benefit of DPP4i.
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spelling uthm.eprints-58502022-01-24T04:04:16Z http://eprints.uthm.edu.my/5850/ Sitagliptin alters bone composition in high-fat-fed mice Mansur, Sity Aishah Mieczkowska, Aleksandra Flatt, Peter R. Chappard, Daniel Irwin, Nigel Mabilleau, Guillaume TP155-156 Chemical engineering Type 2 diabetes mellitus is recognized as a significant risk factor for fragility of bone. Among the newer anti-diabetic agents, dipeptidyl peptidase-4 inhibitors (DPP4i) have been reported to decrease the occurrence of bone fractures although the reason is unclear. The main aim of this study was to evaluate the impact of sitagliptin treatment on tissue bone strength and compositional parameters in the high-fat-fed mouse model. Male NIH swiss mice were allowed free access to high-fat diet for 150 days to induce chronic hyperglycemia and insulin resistance. Sitagliptin was administered once daily for 3 weeks. High-fat-fed mice administered with saline were used as controls. Bone strength was assessed at the organ and tissue level by three-point bending and nanoindentation, respectively. Bone microarchitecture was investigated by microcomputed tomography and bone composition was evaluated by Fourier transform infrared imaging and quantitative backscattered electron imaging. Administration of sitagliptin increased non-fasting insulin, improved glucose tolerance and increased insulin sensitivity. This was associated with clear ameliorations in bone strength at the organ and tissue level. No changes in trabecular or cortical microarchitectures were observed. On the other hand, higher values of Camean, Caturn, collagen maturity, mineral/ matrix ratio, mineral maturity and crystal size index were evidenced after sitagliptin treatment. Correlation analysis significantly linked the modifications of bone strength to changes in bone compositional parameters. These results bring new light on the mode of action of sitagliptin on bone physiology and demonstrate a benefit of DPP4i. CALCIFIED TISSUE INTERNATIONAL, Springer Link 2018 Article PeerReviewed text en http://eprints.uthm.edu.my/5850/1/AJ%202018%20%28919%29%20Sitagliptin%20alters%20bone%20composition%20in%20high-fat-fed%20mice.pdf Mansur, Sity Aishah and Mieczkowska, Aleksandra and Flatt, Peter R. and Chappard, Daniel and Irwin, Nigel and Mabilleau, Guillaume (2018) Sitagliptin alters bone composition in high-fat-fed mice. Calcified Tissue International volume, 104. pp. 437-448. ISSN 1432-0827
spellingShingle TP155-156 Chemical engineering
Mansur, Sity Aishah
Mieczkowska, Aleksandra
Flatt, Peter R.
Chappard, Daniel
Irwin, Nigel
Mabilleau, Guillaume
Sitagliptin alters bone composition in high-fat-fed mice
title Sitagliptin alters bone composition in high-fat-fed mice
title_full Sitagliptin alters bone composition in high-fat-fed mice
title_fullStr Sitagliptin alters bone composition in high-fat-fed mice
title_full_unstemmed Sitagliptin alters bone composition in high-fat-fed mice
title_short Sitagliptin alters bone composition in high-fat-fed mice
title_sort sitagliptin alters bone composition in high fat fed mice
topic TP155-156 Chemical engineering
url http://eprints.uthm.edu.my/5850/1/AJ%202018%20%28919%29%20Sitagliptin%20alters%20bone%20composition%20in%20high-fat-fed%20mice.pdf
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