The Influence of Type I Collagen on the Development and Maintenance of the Osteoblast Phenotype in Primary and Passaged Rat Calvarial Osteoblasts: Modification of Expression of Genes Supporting Cell Growth, Adhesion, and Extracellular Matrix Mineralization

成骨细胞 骨桥蛋白 生物 骨结合蛋白 纤维连接蛋白 细胞外基质 Ⅰ型胶原 骨钙素 细胞生物学 细胞分化 基因表达 鱼腥草素骨 内分泌学 内科学 间充质干细胞 细胞粘附 表型 头盖骨 细胞培养 细胞 碱性磷酸酶 粘附 基因 生物化学 体外 遗传学 医学
作者
Maureen P. Lynch,Gary S. Stein,Jane B. Lian
出处
期刊:Experimental Cell Research [Elsevier BV]
卷期号:216 (1): 35-45 被引量:341
标识
DOI:10.1006/excr.1995.1005
摘要

Osteoblasts derived from Day 21 fetal rat calvaria grown on films of collagen type I exhibit an earlier and enhanced expression of the differentiated phenotype, compared to cells cultured on plastic. The temporal expression of genes characterizing three distinct periods of growth and differentiation are dramatically modified. During the initial proliferation period, expression of genes normally expressed at high levels on plastic (fibronectin, beta 1 integrin, and actin) was decreased from 50 to 70% in cells grown on collagen. Genes normally expressed at maximal levels in the postproliferative period (osteonectin, osteocalcin, and osteopontin) were up-regulated severalfold very early. Alkaline phosphatase enzyme activity was elevated 2- to 3-fold during the proliferation period, while mRNA levels remained low, suggesting post-transcriptional modifications. The most dramatic consequence of culture of cells on collagen is the accelerated and uniform mineralization of the matrix in contrast to the focal mineralization confined to bone nodules in cultures on plastic. Type I collagen supports maintenance of osteoblast phenotypic properties of passaged cells in the absence of glucocorticoid supplementation required for differentiation of osteoblasts subcultivated on plastic. Treatment of proliferating rat osteoblasts on plastic with 1,25(OH)2D3 blocks osteoblast differentiation and matrix mineralization. Although differentiation-related genes (alkaline phosphatase and osteocalcin) were up-regulated by vitamin D, culture on the collagen matrix could not overcome the inhibition of mineralization. Taken together, these studies define the critical role of type I collagen in mediating the signaling cascade for expression of a mature osteoblast phenotype and mineralization of the extracellular matrix in a physiological manner.

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