Russell Dedini scite author profile

SUMMARYThe matrix metalloproteinase (MMP) family of extracellular proteases performs crucial roles in development and repair of the skeleton owing to their ability to remodel the extracellular matrix (ECM) and release bioactive molecules. Most MMP-null skeletal phenotypes that have been previously described are mild, thus permitting the assessment of their functions during bone repair in the adult. In humans and mice, MMP2 deficiency causes a musculoskeletal phenotype. In this study, we assessed the role of MMP2 during mouse fracture repair and compared it with the roles of MMP9 and MMP13. Mmp2 was expressed at low levels in the normal skeleton and was broadly expressed in the fracture callus. Treatment of wild-type mice with a general MMP inhibitor, GM6001, caused delayed cartilage remodeling and bone formation during fracture repair, which resembles the defect observed in Mmp9–/– mice. Unlike Mmp9- and Mmp13-null mutations, which affect both cartilage and bone in the callus, the Mmp2-null mutation delayed bone remodeling but not cartilage remodeling. This remodeling defect occurred without changes in either osteoclast recruitment or vascular invasion of the fracture callus compared with wild type. However, we did not detect changes in expression of Mmp9, Mmp13 or Mt1-Mmp (Mmp14) in the calluses of Mmp2-null mice compared with wild type by in situ hybridization, but we observed decreased expression of Timp2 in the calluses of Mmp2-, Mmp9- and Mmp13-null mice. In keeping with the skeletal phenotype of Mmp2-null mice, MMP2 plays a role in the remodeling of new bone within the fracture callus and impacts later stages of bone repair compared with MMP9 and MMP13. Taken together, our results indicate that MMPs play unique and distinct roles in regulating skeletal tissue deposition and remodeling during fracture repair.

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Comparison of Pediatric Outcomes Data Collection Instrument Scores and Range of Motion Before and After Shoulder Tendon Transfers for Children With Brachial Plexus Birth Palsy

Dedini¹,

Bagley²,

Molitor³

et al. 2008

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Can A Novel Rectangular Footplate Provide Higher Resistance to Subsidence Than Circular Footplates? An Ex Vivo Biomechanical Study

Pekmezci

McDonald

Kennedy

et al. 2012

Spine

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Safe Zone for Placement of Talar Screws When Fusing the Ankle With an Anterior Plating System

2015

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Ferromagnetic Interactions and Radiofrequency Induced Heating of Small Arms Ballistics in MRI Scanners Utilizing Three Different Strength Magnets

Pekmezci¹,

Dedini

2011

The Spine Journal

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Russell Dedini

A Cost-Utility Analysis Comparing the Cost-Effectiveness of Simultaneous and Staged Bilateral Total Knee Arthroplasty

MRI issues for ballistic objects: information obtained at 1.5-, 3- and 7-Tesla

Impaired remodeling phase of fracture repair in the absence of matrix metalloproteinase-2

Comparison of Pediatric Outcomes Data Collection Instrument Scores and Range of Motion Before and After Shoulder Tendon Transfers for Children With Brachial Plexus Birth Palsy

Can A Novel Rectangular Footplate Provide Higher Resistance to Subsidence Than Circular Footplates? An Ex Vivo Biomechanical Study

Safe Zone for Placement of Talar Screws When Fusing the Ankle With an Anterior Plating System

Ferromagnetic Interactions and Radiofrequency Induced Heating of Small Arms Ballistics in MRI Scanners Utilizing Three Different Strength Magnets

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