Influence of colchicine on the synthesis and secretion of proteoglycans and collagen by fetal guinea pig chondrocytes

Fetal guinea-pig epiphyseal chondrocytes were cultured in monolayers and as aggregates in the presence of antimicrotubular agents. Colchicine and vinblastine caused a dissociation of the Golgi complex, in addition to the disappearance of microtubules. Synthesis and secretion of proteoglycans and collagen were studied using radioactive precursors. Colchicine inhibited the synthesis of proteoglycans. The drug also inhibited secretion with an intracellular accumulation of these molecules. The proteoglycans secreted by the colchicine-treated cells had a smaller molecular size and contained a smaller proportion of aggregated molecules than proteoglycans in control cultures. However, there was no difference in the average size of the chondroitin sulfate side chains of the proteoglycan molecules. Nor was there any increase in the breakdown of proteoglycans in colchicine-treated cultures. Vinblastine was also found to inhibit synthesis and secretion of proteoglycans. Deuterium oxide also inhibited the synthesis of these molecules but stimulated their secretion into the medium. Colchicine caused an inhibition of both synthesis and secretion of collagen. It is suggested that the quantitative and qualitative effects of colchicine could be the result of disturbances in the Golgi complex, possibly in combination with a retarded translocation of secretory vacuoles. However, as the colchicine-treated chondrocytes were still able to continue a large part of their matrix biosynthesis with only moderate changes in the structure of the secreted molecules, it is probable that alternative pathways for the secretion of matrix molecules exist and/or the Golgi complex is able to retain a major part of its function despite the structural alterations.