Impact of matrix metalloproteinases on inhibition of mineralization by fetuin

Background and Objective Human subjects affected by inflammatory diseases, such as periodontitis, may be at increased risk for the development of cardiovascular diseases and calcification of atheromas; however, the potential mechanisms have not been defined. Alpha‐2‐Heremans Schmid glycoprotein (fet...

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Published in:Journal of periodontal research 2013-06, Vol.48 (3), p.357-366
Main Authors: Schure, R., Costa, K. D., Rezaei, R., Lee, W., Laschinger, C., Tenenbaum, H. C., McCulloch, C. A.
Format: Article
Language:English
Subjects:
alpha-2-HS-Glycoprotein - adverse effects
alpha-2-HS-Glycoprotein - antagonists & inhibitors
alpha-2-HS-Glycoprotein - metabolism
calcium phosphate
Cell-Free System
Dentistry
Durapatite - metabolism
Electrophoresis, Polyacrylamide Gel
Humans
Mass Spectrometry
matrilysin
Matrix Metalloproteinase 3 - metabolism
Matrix Metalloproteinase 7 - metabolism
mineralization
periodontal diseases
Protein Binding - drug effects
Statistics, Nonparametric
stromelysin
Vascular Calcification - chemically induced
Vascular Calcification - metabolism
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Summary:Background and Objective Human subjects affected by inflammatory diseases, such as periodontitis, may be at increased risk for the development of cardiovascular diseases and calcification of atheromas; however, the potential mechanisms have not been defined. Alpha‐2‐Heremans Schmid glycoprotein (fetuin A) is an abundant serum glycoprotein of ~49 kDa that inhibits ectopic arterial calcification. We examined whether matrix metalloproteinases (MMPs), which are increased in inflammatory diseases, including periodontitis, bind and degrade fetuin and alter its ability to inhibit calcification in vitro. Material and Methods Binding and cleavage of fetuin by MMPs were assessed by sodium dodecyl sulfate–polyacrylamide gel electrophoresis, in‐silico analyses and mass spectrometry. The effects of intact and MMP‐degraded human fetuin on mineralization were measured in a cell‐free assay. Results From in‐silico analyses and literature review, we found that only MMP‐3 (stromelysin) and MMP‐7 (matrilysin) were predicted to cleave human fetuin at levels that were physiologically relevant. In‐vitro assays showed that MMP‐7, and, to a lesser extent, MMP‐3, degraded human fetuin in a time‐ and dose‐dependent manner. Fetuin peptides generated by MMP‐7 cleavage were identified and sequenced by mass spectrometry; novel cleavage sites were found. Hydroxyapatite mineralization in vitro was strongly inhibited by fetuin (> 1 μm), as was MMP‐3‐cleaved fetuin, while MMP‐7‐cleaved fetuin was threefold less effective in blocking mineralization. Conclusion MMP‐7 and, to a lesser extent, MMP‐3, affect the ability of fetuin to inhibit the formation of hydroxyapatite in vitro. These data suggest that the MMPs increased in inflammatory diseases, such as periodontitis, could affect regulation of mineralization and potentially enhance the risk of calcified atheroma formation.
ISSN:0022-3484
1600-0765
DOI:10.1111/jre.12015