Dynamic conversion of cell sorting patterns in aggregates of embryonic stem cells with differential adhesive affinity.

Q2 Biochemistry, Genetics and Molecular Biology BMC Developmental Biology Pub Date : 2021-01-06 DOI:10.1186/s12861-020-00234-0
Jeffrey D Tse, Robert Moore, Yue Meng, Wensi Tao, Elizabeth R Smith, Xiang-Xi Xu
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Abstract

Background: Mammalian early development comprises the proliferation, differentiation, and self-assembly of the embryonic cells. The classic experiment undertaken by Townes and Holtfreter demonstrated the ability of dissociated embryonic cells to sort and self-organize spontaneously into the original tissue patterns. Here, we further explored the principles and mechanisms underlying the phenomenon of spontaneous tissue organization by studying aggregation and sorting of mouse embryonic stem (ES) cells with differential adhesive affinity in culture.

Results: As observed previously, in aggregates of wild-type and E-cadherin-deficient ES cells, the cell assemblies exhibited an initial sorting pattern showing wild-type cells engulfed by less adhesive E-cadherin-deficient ES cells, which fits the pattern predicted by the differential adhesive hypothesis proposed by Malcom Steinberg. However, in further study of more mature cell aggregates, the initial sorting pattern reversed, with the highly adhesive wild-type ES cells forming an outer shell enveloping the less adhesive E-cadherin-deficient cells, contradicting Steinberg's sorting principle. The outer wild-type cells of the more mature aggregates did not differentiate into endoderm, which is known to be able to sort to the exterior from previous studies. In contrast to the naive aggregates, the mature aggregates presented polarized, highly adhesive cells at the outer layer. The surface polarity was observed as an actin cap contiguously spanning across the apical surface of multiple adjacent cells, though independent of the formation of tight junctions.

Conclusions: Our experimental findings suggest that the force of differential adhesive affinity can be overcome by even subtle polarity generated from strong bilateral ligation of highly adhesive cells in determining cell sorting patterns.

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具有不同粘附亲和力的胚胎干细胞聚集体中细胞分拣模式的动态转换。
背景:哺乳动物的早期发育包括胚胎细胞的增殖、分化和自我组装:哺乳动物的早期发育包括胚胎细胞的增殖、分化和自我组装。Townes 和 Holtfreter 所做的经典实验证明,离体的胚胎细胞能够自发地分类和自组织成原始的组织形态。在此,我们通过研究具有不同粘附亲和力的小鼠胚胎干(ES)细胞在培养过程中的聚集和分选,进一步探索了自发组织现象的原理和机制:正如之前所观察到的,在野生型和E-cadherin缺陷型ES细胞的聚集体中,细胞集合体表现出一种初始分选模式,即野生型细胞被粘附性较低的E-cadherin缺陷型ES细胞吞噬,这符合马尔科姆-斯坦伯格(Malcom Steinberg)提出的差异粘附假说所预测的模式。然而,在对更成熟的细胞聚集体进行进一步研究时,最初的分选模式发生了逆转,高粘附性的野生型 ES 细胞形成了一个外壳,将粘附性较低的 E-cadherin 缺陷细胞包裹起来,这与 Steinberg 的分选原理相矛盾。更成熟的聚集体的外层野生型细胞没有分化成内胚层,而根据以前的研究,内胚层是可以向外部分选的。与幼稚聚集体不同的是,成熟聚集体的外层出现了极化的高粘附性细胞。表面极性表现为肌动蛋白帽连续跨越多个相邻细胞的顶端表面,但与紧密连接的形成无关:我们的实验结果表明,在确定细胞分选模式时,即使高粘附性细胞的双侧强连接产生了微妙的极性,也能克服不同粘附亲和力的作用。
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来源期刊
BMC Developmental Biology
BMC Developmental Biology 生物-发育生物学
自引率
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0
审稿时长
>12 weeks
期刊介绍: BMC Developmental Biology is an open access, peer-reviewed journal that considers articles on the development, growth, differentiation and regeneration of multicellular organisms, including molecular, cellular, tissue, organ and whole organism research.
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