STABILITY OF THE COLLAGEN PHENOTYPE DURING STIMULATED COLLAGEN, GLYCOSAMINOGLYCAN, AND DNA-SYNTHESIS BY ARTICULAR-CARTILAGE ORGAN-CULTURES

Rabbit articular cartilage slices were grown in organ culture for 9 weeks. Eightfold increases in the synthesis of both glycosaminoglycan and collagen were observed at 1 and 3 weeks, respectively. These levels of synthesis gradually declined in parallel to fourfold at 9 weeks. DNA synthesis was stimulated more than 30-fold at 3 weeks and then declined to sevenfold at 9 weeks. In contrast, the content of glycosaminoglycans and collagen per milligram of original wet slices did not vary significantly, while the number of cells increased 1.7-fold by the end of the study. The collagen phenotype of these cultures was determined by sodium dodecyl sulfate electrophoresis of recently synthesized, [3H]proline-labeled intact collagen chains and CNBr peptides. Throughout the study the major collagen synthesized was type II, ranging from 95 to 68% of the collagen synthesized at 0 and 5 weeks, respectively. Increases in the proportions of X2Y and type III collagen were first observed at 3 weeks in culture. The synthesis of type I collagen was detected only after 5 weeks in culture and never represented more than 11% of the total collagen synthesized. The synthesis of type I trimer could not be verified at any time. This study demonstrates that in vitro organ culture of articular cartilage slices allows chondrocytes to maintain the normal chondrocyte collagen phenotype of predominantly type II synthesis while stimulating their proliferation and matrix synthesis. © 1979.