Commitment of human mesenchymal stromal cells to skeletal lineages is independent of their morphogenetic capacity.

IF 3.6 3区 医学 Q3 CELL & TISSUE ENGINEERING
Jessica Cristina Marín-Llera, Damián García-García, Estefania Garay-Pacheco, Victor Adrian Cortes-Morales, Juan Jose Montesinos-Montesinos, Jesus Chimal-Monroy
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引用次数: 0

Abstract

Background: Mesenchymal stromal cells (MSCs) are multipotent cell populations obtained from fetal and adult tissues. They share some characteristics with limb bud mesodermal cells such as differentiation potential into osteogenic, chondrogenic, and tenogenic lineages and an embryonic mesodermal origin. Although MSCs differentiate into skeletal-related lineages in vitro, they have not been shown to self-organize into complex skeletal structures or connective tissues, as in the limb. In this work, we demonstrate that the expression of molecular markers to commit MSCs to skeletal lineages is not sufficient to generate skeletal elements in vivo.

Aim: To evaluate the potential of MSCs to differentiate into skeletal lineages and generate complex skeletal structures using the recombinant limb (RL) system.

Methods: We used the experimental system of RLs from dissociated-reaggregated human placenta (PL) and umbilical cord blood (UCB) MSCs. After being harvested and reaggregated in a pellet, cultured cells were introduced into an ectodermal cover obtained from an early chicken limb bud. Next, this filled ectoderm was grafted into the back of a donor chick embryo. Under these conditions, the cells received and responded to the ectoderm's embryonic signals in a spatiotemporal manner to differentiate and pattern into skeletal elements. Their response to differentiation and morphogenetic signals was evaluated by quantitative polymerase chain reaction, histology, immunofluorescence, scanning electron microscopy, and in situ hybridization.

Results: We found that human PL-MSCs and UCB-MSCs constituting the RLs expressed chondrogenic, osteogenic, and tenogenic molecular markers while differentially committing into limb lineages but could not generate complex structures in vivo. MSCs-RL from PL or UCB were committed early to chondrogenic lineage. Nevertheless, the UCB-RL osteogenic commitment was favored, although preferentially to a tenogenic cell fate. These findings suggest that the commitment of MSCs to differentiate into skeletal lineages differs according to the source and is independent of their capacity to generate skeletal elements or connective tissue in vivo. Our results suggest that the failure to form skeletal structures may be due to the intrinsic characteristics of MSCs. Thus, it is necessary to thoroughly evaluate the biological aspects of MSCs and how they respond to morphogenetic signals in an in vivo context.

Conclusion: PL-MSCs and UCB-MSCs express molecular markers of differentiation into skeletal lineages, but they are not sufficient to generate complex skeletal structures in vivo.

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人类间充质间质细胞对骨骼谱系的承诺与它们的形态发生能力无关。
背景:间充质基质细胞(MSCs)是从胎儿和成人组织中获得的多能细胞群。它们与肢体芽中胚层细胞有一些共同的特征,如向成骨、成软骨和成肌腱谱系的分化潜力和胚胎中胚层起源。尽管间充质干细胞在体外分化为骨骼相关谱系,但它们尚未被证明能够自组织成复杂的骨骼结构或结缔组织,如肢体。在这项工作中,我们证明了分子标记的表达使MSCs进入骨骼谱系并不足以在体内产生骨骼元件。目的:利用重组肢体(RL)系统评价MSCs分化为骨系和生成复杂骨结构的潜力。方法:采用分离重组人胎盘(PL)和脐带血(UCB)间充质干细胞的RLs实验系统。在收获并重新聚集成球后,将培养的细胞引入从早期鸡肢芽获得的外胚层覆盖物中。接下来,这个充满的外胚层被移植到一个供体小鸡胚胎的背部。在这些条件下,细胞接受并响应外胚层的胚胎信号,以一种时空的方式分化并形成骨架元件。通过定量聚合酶链反应、组织学、免疫荧光、扫描电镜和原位杂交来评估它们对分化和形态发生信号的反应。结果:我们发现构成RLs的人PL-MSCs和UCB-MSCs在不同的肢体谱系中表达成软骨、成骨和成肌腱分子标记,但在体内不能产生复杂的结构。来自PL或UCB的MSCs-RL很早就被确定为软骨细胞谱系。尽管如此,UCB-RL的成骨承诺是有利的,尽管优先于成骨细胞的命运。这些发现表明,MSCs分化为骨骼谱系的承诺根据来源而不同,并且与它们在体内产生骨骼元件或结缔组织的能力无关。我们的结果表明,不能形成骨骼结构可能是由于间充质干细胞的内在特性。因此,有必要彻底评估msc的生物学方面以及它们如何在体内环境中对形态发生信号作出反应。结论:PL-MSCs和UCB-MSCs表达分化为骨骼谱系的分子标记,但不足以在体内生成复杂的骨骼结构。
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
World journal of stem cells
World journal of stem cells Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
7.80
自引率
4.90%
发文量
750
期刊介绍: The World Journal of Stem Cells (WJSC) is a leading academic journal devoted to reporting the latest, cutting-edge research progress and findings of basic research and clinical practice in the field of stem cells. It was launched on December 31, 2009 and is published monthly (12 issues annually) by BPG, the world''s leading professional clinical medical journal publishing company.
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