Downregulation of extracellular matrix-related gene clusters during osteogenic differentiation of human bone marrow- and adipose tissue-derived stromal cells.

Hiroshi Egusa, Keisuke Iida, Munemasa Kobayashi, Terry Y Lin, Min Zhu, Patricia A Zuk, Chiachien Jake Wang, Devang K Thakor, Marc H Hedrick, Ichiro Nishimura
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引用次数: 57

Abstract

Bone marrow- and adipose tissue-derived stromal cells (BMSCs and ASCs, respectively) exhibit a similar capacity for osteogenic differentiation in vitro, but it is unclear whether they share a common differentiation process, because they originate from different tissues. The aim of this study was to explore BMSC and ASC osteogenic differentiation by focusing on the expression of extracellular matrix-related genes (ECMGs), which play a crucial role in osteogenesis and bone tissue regeneration in vivo. We characterized the gene expression profiles of BMSCs and ASCs using a custom complementary deoxyribonucleic acid microarray containing 55 ECMGs. Undifferentiated BMSCs and ASCs actively expressed a wide range of ECMGs. Once BMSCs and ASCs were placed in an osteogenic differentiation medium, 24 and 17 ECMGs, respectively, underwent considerable downregulation over the course of the culture period. The remaining genes were maintained at a similar expression level to corresponding uninduced cell cultures. Although the suppression phenomenon was consistent irrespective of stromal cell origin, collagen (COL)2A1, COL6A1, COL9A1, parathyroid hormone receptor, integrin (INT)-beta3, and TenascinX genes were only downregulated in osteogenic BMSCs, whereas COL1A2, COL3A1, COL4A1, COL5A2, COL15A1, osteopontin, osteonectin, and INT-beta1 genes were only downregulated in osteogenic ASCs. During this time period, cell viability was sustained, suggesting that the observed downregulation did not occur by selection and elimination of unfit cells from the whole cell population. These data suggest that osteogenically differentiating BMSCs and ASCs transition away from a diverse gene expression pattern, reflecting their multipotency toward a configuration specifically meeting the requirements of the target lineage. This change may serve to normalize gene expression in mixed populations of stem cells derived from different tissues.

人骨髓和脂肪组织源性基质细胞成骨分化过程中细胞外基质相关基因簇的下调。
骨髓和脂肪组织来源的基质细胞(分别为BMSCs和ASCs)在体外表现出类似的成骨分化能力,但尚不清楚它们是否具有共同的分化过程,因为它们起源于不同的组织。本研究的目的是通过关注细胞外基质相关基因(ecmg)的表达来探讨BMSC和ASC的成骨分化,ecmg在体内成骨和骨组织再生中起着至关重要的作用。我们使用包含55个ecmg的定制互补脱氧核糖核酸微阵列来表征BMSCs和ASCs的基因表达谱。未分化的骨髓间充质干细胞和ASCs积极表达广泛的脑电图。一旦BMSCs和ASCs被置于成骨分化培养基中,分别有24和17个ecmg在培养过程中发生了相当大的下调。其余基因保持在与相应的未诱导细胞培养相似的表达水平。尽管这种抑制现象与基质细胞来源无关,但胶原(COL)2A1、COL6A1、COL9A1、甲状旁腺激素受体、整合素(INT)- β 3和TenascinX基因仅在成骨骨髓间充质干细胞中下调,而COL1A2、COL3A1、COL4A1、COL5A2、COL15A1、骨桥蛋白、骨连接素和INT- β 1基因仅在成骨ASCs中下调。在这段时间内,细胞活力得到维持,这表明观察到的下调并不是通过从整个细胞群中选择和消除不合适的细胞而发生的。这些数据表明,成骨分化的骨髓间充质干细胞和ASCs从多样化的基因表达模式转变为一种专门满足目标谱系要求的多能性配置。这种变化可能有助于使来自不同组织的干细胞混合群体中的基因表达正常化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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