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  • Title: Substrate-bonded hyaluronic acid exhibits a size-dependent stimulation of chondrogenic differentiation of stage 24 limb mesenchymal cells in culture.
    Author: Kujawa MJ, Carrino DA, Caplan AI.
    Journal: Dev Biol; 1986 Apr; 114(2):519-28. PubMed ID: 3956876.
    Abstract:
    Extracellular matrix molecules including glycosaminoglycans have been implicated in several differentiative and morphogenetic processes including cell aggregation and migration. Previous reports have shown that plating of stage 24 limb mesenchyme cells onto hyaluronic acid (HA) bonded to the culture substrate causes an increase in the number of cells exhibiting chondrogenesis. This increased chondrogenesis is now shown to be dependent upon the source of the HA. When limb mesenchymal cells are plated onto HA from bovine vitreous humor, human umbilical cord, or large molecular weight HA (Healon), increased chondrogenesis is observed only on the bovine vitreous humor HA. Unsulfated chondroitin, which has a structure and charge density similar to those of HA, is capable of enhancing chondrogenesis, while cells plated onto sulfated glycosaminoglycan substrates are indistinguishable from controls. The evidence in this report suggests that the differentiation response is related to the molecular size of the HA bound to the culture substrate. Healon and human umbilical cord HA are ineffective because their molecular weight is too large, while smaller HA derived from these larger molecules or normally present in bovine vitreous humor preparations stimulates the chondrogenic differentiation of stage 24 limb mesenchymal cells in culture. The most active size class of HA elutes from a Sepharose CL-2B column with a Kav between 0.6 and 0.7 and, thus, has a molecular weight of approximately 200,000-400,000. These observations reinforce the hypothesis that local cues have an informational effect on the differentiation of chick limb mesenchymal cells.
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