Decreased Mechanical Strength and Collagen Content in SPARC‐Null Periodontal Ligament Is Reversed by Inhibition of Transglutaminase Activity |
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| Authors: | Jessica Trombetta‐eSilva Emilie A Rosset R Glenn Hepfer Gregory J Wright Catalin Baicu Hai Yao Amy D Bradshaw |
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| Affiliation: | 1. Department of Craniofacial Biology, Medical University of South Carolina, Charleston, Clemson, SC, USA;2. Department of Bioengineering, Clemson University, Clemson, SC, USA;3. Gazes Cardiac Research Institute, Division of Cardiology, Department of Medicine, Medical University of South Carolina, Charleston, SC, USA;4. Ralph H. Johnson Department of Veterans Affairs Medical Center, Charleston, SC, USA |
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| Abstract: | The periodontal ligament (PDL) is a critical tissue that provides a physical link between the mineralized outer layer of the tooth and the alveolar bone. The PDL is composed primarily of nonmineralized fibrillar collagens. Expression of secreted protein acidic and rich in cysteine (SPARC/osteonectin), a collagen‐binding matricellular protein, has been shown to be essential for collagen homeostasis in PDL. In the absence of SPARC, PDL collagen fibers are smaller and less dense than fibers that constitute WT PDL. The aim of this study was to identify cellular mechanisms by which SPARC affected collagen fiber assembly and morphology in PDL. Cross‐linking of fibrillar collagens is one parameter that is known to affect insoluble collagen incorporation and fiber morphology. Herein, the reduction in collagen fiber size and quantity in the absence of SPARC expression was shown to result in a PDL with reduced molar extraction force in comparison to that of WT mice (C57Bl/6J). Furthermore, an increase in transglutaminase activity was found in SPARC‐null PDL by biochemical analyses that was supported by immunohistochemical results. Specifically, collagen I was identified as a substrate for transglutaminase in PDL and transglutaminase activity on collagen I was found to be greater in SPARC‐null tissues in comparison to WT. Strikingly, inhibition of transglutaminase activity in SPARC‐null PDL resulted in increases in both collagen fiber thickness and in collagen content, whereas transglutaminase inhibitors injected into WT mice resulted in increases in collagen fiber thickness only. Furthermore, PDL treated with transglutaminase inhibitors exhibited increases in molar extraction force in WT and in SPARC‐null mice. Thus, SPARC is proposed to act as a critical regulator of transglutaminase activity on collagen I with implications for mechanical strength of tissues. © 2015 American Society for Bone and Mineral Research |
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| Keywords: | BONE MATRIX NONCOLLAGENOUS PROTEINS DENTAL BIOLOGY EXTRACELLULAR MATRIX CROSS‐LINKS |
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