The surface of articular cartilage contains a progenitor cell population

doi:10.1242/jcs.00912

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JCS ePress online publication date 3 Feb 2004
doi: 10.1242/jcs.00912

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Research Article

The surface of articular cartilage contains a progenitor cell population

Gary P. Dowthwaite, Joanna C. Bishop, Samantha N. Redman, Ilyas M. Khan, Paul Rooney, Darrell J.R. Evans, Laura Haughton, Zubeyde Bayram, Sam Boyer, Brian Thomson, Michael S. Wolfe, and Charles W. Archer^*
^* Author for correspondence (e-mail: archer{at}cardiff.ac.uk)

It is becoming increasingly apparent that articular cartilagegrowth is achieved by apposition from the articular surface.For such a mechanism to occur, a population of stem/progenitorcells must reside within the articular cartilage to providetransit amplifying progeny for growth. Here, we report on theisolation of an articular cartilage progenitor cell from thesurface zone of articular cartilage using differential adhesionto fibronectin. This population of cells exhibits high affinityfor fibronectin, possesses a high colony-forming efficiencyand expresses the cell fate selector gene Notch 1. Inhibitionof Notch signalling abolishes colony forming ability whilstactivated Notch rescues this inhibition. The progenitor populationalso exhibits phenotypic plasticity in its differentiation pathwayin an embryonic chick tracking system, such that chondroprogenitorscan engraft into a variety of connective tissue types includingbone, tendon and perimysium. The identification of a chondrocytesubpopulation with progenitor-like characteristics will allowfor advances in our understanding of both cartilage growth andmaintenance as well as provide novel solutions to articularcartilage repair.

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