Literature DB >> 32142682

Sliced Human Cortical Organoids for Modeling Distinct Cortical Layer Formation.

Xuyu Qian1, Yijing Su2, Christopher D Adam3, Andre U Deutschmann4, Sarshan R Pather5, Ethan M Goldberg6, Kenong Su7, Shiying Li8, Lu Lu2, Fadi Jacob9, Phuong T T Nguyen3, Sooyoung Huh2, Ahmet Hoke10, Sarah E Swinford-Jackson11, Zhexing Wen12, Xiaosong Gu13, R Christopher Pierce14, Hao Wu15, Lisa A Briand4, H Isaac Chen16, John A Wolf17, Hongjun Song18, Guo-Li Ming19.   

Abstract

Human brain organoids provide unique platforms for modeling development and diseases by recapitulating the architecture of the embryonic brain. However, current organoid methods are limited by interior hypoxia and cell death due to insufficient surface diffusion, preventing generation of architecture resembling late developmental stages. Here, we report the sliced neocortical organoid (SNO) system, which bypasses the diffusion limit to prevent cell death over long-term cultures. This method leads to sustained neurogenesis and formation of an expanded cortical plate that establishes distinct upper and deep cortical layers for neurons and astrocytes, resembling the third trimester embryonic human neocortex. Using the SNO system, we further identify a critical role of WNT/β-catenin signaling in regulating human cortical neuron subtype fate specification, which is disrupted by a psychiatric-disorder-associated genetic mutation in patient induced pluripotent stem cell (iPSC)-derived SNOs. These results demonstrate the utility of SNOs for investigating previously inaccessible human-specific, late-stage cortical development and disease-relevant mechanisms.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Brain organoid; DISC1; WNT; cerebral cortex; forebrain organoid; human iPSC; lamination; neurodevelopment; neuron fate specification; schizophrenia

Mesh:

Year:  2020        PMID: 32142682      PMCID: PMC7366517          DOI: 10.1016/j.stem.2020.02.002

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   24.633


  71 in total

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  74 in total

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Review 7.  Brain organoids for the study of human neurobiology at the interface of in vitro and in vivo.

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Review 9.  Modeling neurological disorders using brain organoids.

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