Literature DB >> 22930474

Mechanical stress and ATP synthesis are coupled by mitochondrial oxidants in articular cartilage.

Katherine J Wolff1, Prem S Ramakrishnan, Marc J Brouillette, Brice J Journot, Todd O McKinley, Joseph A Buckwalter, James A Martin.   

Abstract

Metabolic adaptation of articular cartilage under joint loading is evident and matrix synthesis seems to be critically tied to ATP. Chondrocytes utilize the glycolytic pathway for energy requirements but seem to require mitochondrial reactive oxygen species (ROS) to sustain ATP synthesis. The role of ROS in regulating ATP reserves under a mechanically active environment is not clear. It is believed that physiological strains cause deformation of the mitochondria, potentially releasing ROS for energy production. We hypothesized that mechanical loading stimulates ATP synthesis via mitochondrial release of ROS. Bovine osteochondral explants were dynamically loaded at 0.5 Hz with amplitude of 0.25 MPa for 1 h. Cartilage response to mechanical loading was assessed by imaging with dihydroethidium (ROS indicator) and a Luciferase-based ATP assay. Electron transport inhibitor rotenone and mitochondrial ROS scavenger MitoQ significantly suppressed mechanically induced ROS production and ATP synthesis. Our findings indicate that mitochondrial ROS are produced as a result of physiological mechanical strains. Taken together with our previous findings of ROS involvement in blunt impact injuries, mitochondrial ROS are important contributors to cartilage metabolic adaptation and their precise role in the pathogenesis of osteoarthritis warrants further investigation.
Copyright © 2012 Orthopaedic Research Society.

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Year:  2012        PMID: 22930474      PMCID: PMC3678272          DOI: 10.1002/jor.22223

Source DB:  PubMed          Journal:  J Orthop Res        ISSN: 0736-0266            Impact factor:   3.494


  45 in total

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4.  Mitochondrial dysfunction in osteoarthritis.

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  23 in total

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Review 6.  MITOCHONDRIAL FUNCTION IN SEPSIS.

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Review 7.  Emerging targets in osteoarthritis therapy.

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8.  Effects of knockout of the receptor for advanced glycation end-products on bone mineral density and synovitis in mice with intra-articular fractures.

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9.  Mathematics as a conduit for translational research in post-traumatic osteoarthritis.

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10.  Complementary models reveal cellular responses to contact stresses that contribute to post-traumatic osteoarthritis.

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