细胞间黏附与人类皮质发育中的神经发生：二维单层培养与三维类器官培养的比较研究。

Cell-to-Cell Adhesion and Neurogenesis in Human Cortical Development: A Study Comparing 2D Monolayers with 3D Organoid Cultures.

机构信息

Child Study Center, Yale University, New Haven, CT 06520, USA.

Child Study Center, Yale University, New Haven, CT 06520, USA; Advanced Biomedical Sciences Department, University "Federico II", Naples, Italy.

出版信息

Stem Cell Reports. 2021 Feb 9;16(2):264-280. doi: 10.1016/j.stemcr.2020.12.019. Epub 2021 Jan 28.

DOI:10.1016/j.stemcr.2020.12.019

PMID:33513360

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7878838/

Abstract

Organoids (ORGs) are increasingly used as models of cerebral cortical development. Here, we compared transcriptome and cellular phenotypes between telencephalic ORGs and monolayers (MONs) generated in parallel from three biologically distinct induced pluripotent stem cell (iPSC) lines. Multiple readouts revealed increased proliferation in MONs, which was caused by increased integrin signaling. MONs also exhibited altered radial glia (RG) polarity and suppression of Notch signaling, as well as impaired generation of intermediate progenitors, outer RG, and cortical neurons, which were all partially reversed by reaggregation of dissociated cells. Network analyses revealed co-clustering of cell adhesion, Notch-related transcripts and their transcriptional regulators in a module strongly downregulated in MONs. The data suggest that ORGs, with respect to MONs, initiate more efficient Notch signaling in ventricular RG owing to preserved cell adhesion, resulting in subsequent generation of intermediate progenitors and outer RG, in a sequence that recapitulates the cortical ontogenetic process.

摘要

类器官（ORGs）越来越多地被用作大脑皮质发育的模型。在这里，我们比较了三种不同的诱导多能干细胞（iPSC）系中平行生成的端脑 ORGs 和单层（MONs）之间的转录组和细胞表型。多项检测结果显示，MONs 的增殖增加，这是由整合素信号的增加引起的。MONs 还表现出放射状胶质（RG）极性的改变和 Notch 信号的抑制，以及中间祖细胞、外 RG 和皮质神经元的生成受损，这些都可以通过分离细胞的重新聚集部分逆转。网络分析显示，细胞黏附、Notch 相关转录本及其转录调节因子在一个模块中聚类，该模块在 MONs 中强烈下调。数据表明，与 MONs 相比，ORGs 由于保留了细胞黏附，在室管膜 RG 中启动更有效的 Notch 信号，从而随后产生中间祖细胞和外 RG，这一序列再现了皮质发生过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1a9a/7878838/ad6bcb1f7982/gr1.jpg

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细胞间黏附与人类皮质发育中的神经发生：二维单层培养与三维类器官培养的比较研究。

Cell-to-Cell Adhesion and Neurogenesis in Human Cortical Development: A Study Comparing 2D Monolayers with 3D Organoid Cultures.

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