Association between friction and wear in diarthrodial joints lacking lubricin

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Jay, Gregory D.¹; Torres, Jahn R.¹; Rhee, David K.²; Helminen, Heikki J.³; Hytinnen, Mika M.³; Cha, Chung-Ja¹; Elsaid, Khaled¹; Kim, Kyung-Suk¹; Cui, Yajun²; Warman, Matthew L.²

Association between friction and wear in diarthrodial joints lacking lubricin

Arthritis Rheum. November 2007;56(11):3662-3669

©2007 American College of Rheumatology

Affiliations

¹Brown University, Providence, Rhode Island

²Case Western Reserve University, Cleveland, Ohio

³University of Kuopio, Kuopio, Finland
Abstract

Objective: The glycoprotein lubricin (encoded by the gene Prg4) is secreted by surface chondrocytes and synovial cells, and has been shown to reduce friction in vitro. In contrast to man-made bearings, mammalian diarthrodial joints must endogenously produce friction-reducing agents. This study was undertaken to investigate whether friction is associated with wear.

Methods: The lubricating ability of synovial fluid (SF) samples from humans with genetic lubricin deficiency was tested in vitro. The coefficient of friction in the knee joints of normal and lubricin-null mice was measured ex vivo; these joints were also studied by light and electron microscopy. Atomic force microscopy was used to image and measure how lubricin reduces friction in vitro.

Results: SF lacking lubricin failed to reduce friction in the boundary mode. Joints of lubricin-null mice showed early wear and higher friction than joints from their wild-type counterparts. Lubricin self-organized and reduced the work of adhesion between apposing asperities.

Conclusion: These data show that friction is coupled with wear at the cartilage surface in vivo. They imply that acquired lubricin degradation occurring in inflammatory joint diseases predisposes the cartilage to damage. Lastly, they suggest that lubricin, or similar biomolecules, will have applications in man-made devices in which reducing friction is essential.
Links

DOI: 10.1002/art.22974

PubMed: 17968947

WoS: 000250891000019
History

Received: 2007-02-08

Accepted: 2007-07-20

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2008	Elsaid KA, Fleming BC, Oksendahl HL, Machan JT, Fadale PD, Hulstyn MJ, Shalvoy R, Jay GD. Decreased lubricin concentrations and markers of joint inflammation in synovial fluids from patients with anterior cruciate ligament injury. Arthritis Rheum. June 2008;58(6):1707-1715.
2009	Ateshian GA. The role of interstitial fluid pressurization in articular cartilage lubrication. J Biomech. June 19, 2009;42(9):1163-1176.
2023	Pellicore MJ, Gangi LR, Murphy LA, Lee AJ, Jacobsen T, Kenawy HM, Shah RP, Chahine NO, Ateshian GA, Hung CT. Toward defining the role of the synovium in mitigating normal articular cartilage wear and tear. J Biomech. February 2023;148:111472.
2023	Dogru S, Dai Z, Alba GM, Simone NJ, Albro MB. Computational and experimental characterizations of the spatiotemporal activity and functional role of TGF-β in the synovial joint. J Biomech. July 2023;156:111673.
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