Kato Y, Gospodarowicz D
J Cell Biol. 1985 Feb;100(2):477-85. doi: 10.1083/jcb.100.2.477.
We examined the effect of fibroblast growth factor (FGF) on proteoglycan synthesis by rabbit costal chondrocyte cultures maintained on plastic tissue culture dishes. Low density rabbit costal chondrocyte cultures grown in the absence of FGF gave rise at confluency to a heterogeneous cell population composed of fibroblastic cells and poorly differentiated chondrocytes. When similar cultures were grown in the presence of FGF, the confluent cultures organized into a homogenous cartilage-like tissue composed of rounded cells surrounded by a refractile matrix. The cell ultrastructure and that of the pericellular matrix were similar to those seen in vivo. The expression of the cartilage phenotype in confluent chondrocyte cultures grown from the sparse stage in the presence vs. absence of FGF was reflected by a fivefold increase in the rate of incorporation of [35S]sulfate into proteoglycans. These FGF effects were only observed when FGF was present during the cell logarithmic growth phase, but not when it was added after chondrocyte cultures became confluent. High molecular weight, chondroitin sulfate proteoglycans synthesized by confluent chondrocyte cultures grown in the presence of FGF were slightly larger in size than that produced by confluent cultures grown in the absence of FGF. The major sulfated glycosaminoglycans associated with low molecular weight proteoglycan in FGF-exposed cultures were chondroitin sulfate, while in cultures not exposed to FGF they were chondroitin sulfate and dermatan sulfate. Regardless of whether or not cells were grown in the presence or absence of FGF, the 6S/4S disaccharide ratio of chondroitin sulfate chains associated with high and low molecular weight proteoglycans synthesized by confluent cultures was the same. These results provide evidence that when low density chondrocyte cultures maintained on plastic tissue culture dishes are grown in the presence of FGF, it results in a stimulation of the expression and stabilization of the chondrocyte phenotype once cultures become confluent.
我们研究了成纤维细胞生长因子(FGF)对在塑料组织培养皿中培养的兔肋软骨细胞蛋白聚糖合成的影响。在无FGF条件下生长的低密度兔肋软骨细胞培养物,汇合时会形成由成纤维细胞和低分化软骨细胞组成的异质细胞群体。当在FGF存在的情况下培养类似的细胞时,汇合培养物会组织成由圆形细胞组成的均匀软骨样组织,周围有折射性基质。细胞超微结构和细胞周基质的超微结构与体内所见相似。在有无FGF的情况下,从稀疏阶段生长至汇合的软骨细胞培养物中,软骨细胞表型的表达表现为[35S]硫酸盐掺入蛋白聚糖的速率增加了五倍。这些FGF效应仅在细胞对数生长期存在FGF时才观察到,而在软骨细胞培养物汇合后添加则未观察到。在FGF存在下生长的汇合软骨细胞培养物合成的高分子量硫酸软骨素蛋白聚糖,其大小略大于在无FGF条件下生长的汇合培养物所产生的。在暴露于FGF的培养物中,与低分子量蛋白聚糖相关的主要硫酸化糖胺聚糖是硫酸软骨素,而在未暴露于FGF的培养物中,它们是硫酸软骨素和硫酸皮肤素。无论细胞是否在有或无FGF的情况下生长,汇合培养物合成的高分子量和低分子量蛋白聚糖相关的硫酸软骨素链的6S/4S二糖比例是相同的。这些结果证明,当在塑料组织培养皿中维持的低密度软骨细胞培养物在FGF存在下生长时,一旦培养物汇合,就会刺激软骨细胞表型的表达和稳定。