THE LOSS OF PHENOTYPIC TRAITS BY DIFFERENTIATED CELLS: III. The Reversible Behavior of Chondrocytes in Primary Cultures

doi:10.1083/jcb.28.3.473

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ARTICLE

THE LOSS OF PHENOTYPIC TRAITS BY DIFFERENTIATED CELLS

: III. The Reversible Behavior of Chondrocytes in Primary Cultures

Joan Abbott ¹ and Howard Holtzer ¹

¹ From the Department of Anatomy, School of Medicine, University of Pennsylvania, Philadelphia

Observations were made on the behavior of chondrocytes grownunder various conditions in vitro. The chondrocytes in 10-dayembryonic chick vertebrae were grown as cultures of intact vertebrae,as pellets of chondrocytes liberated from their matrix, andas monodispersed cells plated out on plasma clots. Cartilagematrix was stained metachromatically with toluidine blue. Radioautographswere made of incorporated H³-thymidine, H³-proline, and S³⁵-sulfateto determine the extent of DNA synthesis, collagen synthesis,and chondroitin sulfate synthesis, respectively. Chondrocytesin intact vertebrae or in pellets are rounded and actively synthesizingchondroitin sulfate and collagen. There is little DNA synthesisby cells in either vertebrae or pellets. Chondrocytes grownas monodisperse cells rapidly cease synthesizing cytologicallydetectable chondroitin sulfate and are induced to synthesizeDNA and divide. There is a change in the shape of these chondrocytesfrom a rounded to a more stellate condition which accompaniesthe shift in metabolic activity. Conversely, when the cellsattain a certain cell density, they reacquire a rounded shape,cease dividing, and again synthesize chondroitin sulfate. Clustersof chondrocytes synthesize more chondroitin sulfate than isolatedchondrocytes. It is concluded that most chondrocytes synthesizingchondroitin sulfate do not concurrently synthesize DNA. Interactionbetween associated chondrocytes is important in inducing andmaintaining chondroitin sulfate synthesis in genetically determinedchondrocytes. Failure of interaction between chondrocytes leadsto DNA synthesis and cell multiplication.

Submitted on November 8, 1965

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