前神经组织生成胃原体的新方法。

Mehmet Girgin, Nicolas Broguiere, Lorenzo Mattolini, Matthias Lutolf
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引用次数: 0

摘要

胚胎发育是细胞命运决定和形态发生在时空控制下的复杂过程。以往对模式生物的研究为我们对植入后发育的认识奠定了基础;然而,在这个阶段研究哺乳动物胚胎是一个困难而费力的过程。早期试图在体外重现哺乳动物发育的尝试始于胚胎样体(EBs),在胚胎样体中,小鼠胚胎干细胞(mESCs)的聚集被证明可以分化成空间排列的胚层。一个更完善的EBs,类胃原体,提高了胚层分化效率,并展示了细胞在多个轴上的命运模式。然而,原肠样细胞缺乏胚胎中产生脑组织的前神经祖细胞。在这里,我们报告了一种新的培养方案,以高通量诱导mESCs在生物工程微孔阵列上形成植入后上皮细胞样(EPI)聚集体。我们发现,在抑制Wnt信号通路后,EPI聚集体建立了一个扩展的轴向模式,导致前神经祖细胞和后组织的共同衍生。我们的方法适用于大规模研究,旨在确定原肠胚形成和前神经发育的新调节因子,这是目前现有的胚胎样模型无法达到的。这项工作将有助于促进合成胚胎学这一新兴领域的发展,为多能干细胞在疾病建模和组织工程中的各种应用开辟令人兴奋的前景。在传统的原肠腺样细胞培养的基础上,在水凝胶微孔上高通量形成表母细胞样聚集体,并深入了解Wnt信号在前神经组织形成中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A New Approach to Generate Gastruloids to Develop Anterior Neural Tissues.

A New Approach to Generate Gastruloids to Develop Anterior Neural Tissues.

A New Approach to Generate Gastruloids to Develop Anterior Neural Tissues.

A New Approach to Generate Gastruloids to Develop Anterior Neural Tissues.

Embryonic development is a complex process integrating cell fate decisions and morphogenesis in a spatiotemporally controlled manner. Previous studies with model organisms laid the foundation of our knowledge on post-implantation development; however, studying mammalian embryos at this stage is a difficult and laborious process. Early attempts to recapitulate mammalian development in vitro begun with embryoid bodies (EBs), in which aggregates of mouse embryonic stem cells (mESCs) were shown to differentiate into spatially arranged germ layers. A more revised version of EBs, gastruloids, improved the germ layer differentiation efficiency and demonstrated cell fate patterning on multiple axes. However, gastruloids lack anterior neural progenitors that give rise to brain tissues in the embryo. Here, we report a novel culture protocol to coax mESCs into post-implantation epiblast-like (EPI) aggregates in high throughput on bioengineered microwell arrays. We show that upon inhibition of the Wnt signaling pathway, EPI aggregates establish an extended axial patterning, leading to co-derivation of anterior neural progenitors and posterior tissues. Our approach is amenable to large-scale studies aimed at identifying novel regulators of gastrulation and anterior neural development that is currently out of reach with existing embryoid models. This work should contribute to the advancement of the nascent field of synthetic embryology, opening up exciting perspectives for various applications of pluripotent stem cells in disease modeling and tissue engineering. Key features A new gastruloid culture system to model post-implantation mouse embryonic development in vitro High-throughput formation of epiblast-like aggregates on hydrogel microwells Builds upon conventional gastruloid cultures and provides insight into the role of Wnt signaling for the formation of anterior neural tissues Graphical overview.

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