Metformin Improves Diabetic Bone Health by Re-Balancing Catabolism and Nitrogen Disposal

Metformin, a leading drug used to treat diabetic patients, is reported to benefit bone homeostasis under hyperglycemia in animal models. However, both the molecular targets and the biological pathways affected by metformin in bone are not well identified or characterized. The objective of this study...

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Bibliographic Details
Published in:PloS one 2015-12, Vol.10 (12), p.e0146152-e0146152
Main Authors: Li, Xiyan, Guo, Yuqi, Yan, Wenbo, Snyder, Michael P, Li, Xin
Format: Article
Language:English
Subjects:
Animal models
Animals
Antidiabetics
Biochemistry
Biology
Bone and Bones - drug effects
Bone Density - drug effects
Bone marrow
Bone remodeling
Bone remodelling
Bone turnover
Bones
Care and treatment
Catabolism
Chromatography
Clustering
Dentistry
Diabetes
Diabetes mellitus
Diabetes Mellitus, Experimental - drug therapy
Dosage and administration
Homeostasis
Hyperglycemia
Hypoglycemic Agents - pharmacology
Hypoglycemic Agents - therapeutic use
Insulin resistance
Kinases
Ligands
Liquid chromatography
Male
Mass spectrometry
Mass spectroscopy
Medicine
Metabolic pathways
Metabolism
Metabolism - drug effects
Metabolites
Metabolomics
Metformin
Metformin - pharmacology
Metformin - therapeutic use
Mice
Mice, Mutant Strains
Molecular modelling
Nitrogen
Nitrogen - metabolism
Osteogenesis - drug effects
Pathways
Risk factors
Rodents
Scientific imaging
Spectroscopy
Stromal cells
Studies
Therapeutic applications
Urea
Waste disposal
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Summary:Metformin, a leading drug used to treat diabetic patients, is reported to benefit bone homeostasis under hyperglycemia in animal models. However, both the molecular targets and the biological pathways affected by metformin in bone are not well identified or characterized. The objective of this study is to investigate the bioengergeric pathways affected by metformin in bone marrow cells of mice. Metabolite levels were examined in bone marrow samples extracted from metformin or PBS -treated healthy (Wild type) and hyperglycemic (diabetic) mice using liquid chromatography-mass spectrometry (LC-MS)-based metabolomics. We applied an untargeted high performance LC-MS approach which combined multimode chromatography (ion exchange, reversed phase and hydrophilic interaction (HILIC)) and Orbitrap-based ultra-high accuracy mass spectrometry to achieve a wide coverage. A multivariate clustering was applied to reveal the global trends and major metabolite players. A total of 346 unique metabolites were identified, and they are grouped into distinctive clusters that reflected general and diabetes-specific responses to metformin. As evidenced by changes in the TCA and urea cycles, increased catabolism and nitrogen waste that are commonly associated with diabetes were rebalanced upon treatment with metformin. In particular, we found glutamate and succinate whose levels were drastically elevated in diabetic animals were brought back to normal levels by metformin. These two metabolites were further validated as the major targets of metformin in bone marrow stromal cells. Overall using limited sample size, our study revealed the metabolic pathways modulated by metformin in bones which have broad implication in our understanding of bone remodeling under hyperglycemia and in finding therapeutic interventions in mammals.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0146152