Brain organoids are in vitro three-dimensional (3D) self-organized neural structures, which can enable disease modeling and drug screening. However, their use for standardized large-scale drug screening studies is limited by their high batch-to-batch variability, long differentiation time (10–20 weeks), and high production costs. This is particularly relevant when brain organoids are obtained from human induced pluripotent stem cells (iPSCs). Here, we developed, for the first time, a highly standardized, reproducible, and fast (5 weeks) murine brain organoid model starting from embryonic neural stem cells. We obtained brain organoids, which progressively differentiated and self-organized into 3D networks of functional neurons with dorsal forebrain phenotype. Furthermore, by adding the morphogen WNT3a, we generated brain organoids with specific hippocampal region identity. Overall, our results showed the establishment of a fast, robust and reproducible murine 3D in vitro brain model that may represent a useful tool for high-throughput drug screening and disease modeling.
Murine cerebral organoids develop network of functional neurons and hippocampal brain region identity / F. Ciarpella, R.G. Zamfir, A. Campanelli, E. Ren, G. Pedrotti, E. Bottani, A. Borioli, D. Caron, M. Di Chio, S. Dolci, A. Ahtiainen, G. Malpeli, G. Malerba, R. Bardoni, G. Fumagalli, J. Hyttinen, F. Bifari, G. Palazzolo, G. Panuccio, G. Curia, I. Decimo. - In: ISCIENCE. - ISSN 2589-0042. - 24:12(2021 Dec), pp. 103438.1-103438.37. [10.1016/j.isci.2021.103438]
Murine cerebral organoids develop network of functional neurons and hippocampal brain region identity
F. Bifari;
2021
Abstract
Brain organoids are in vitro three-dimensional (3D) self-organized neural structures, which can enable disease modeling and drug screening. However, their use for standardized large-scale drug screening studies is limited by their high batch-to-batch variability, long differentiation time (10–20 weeks), and high production costs. This is particularly relevant when brain organoids are obtained from human induced pluripotent stem cells (iPSCs). Here, we developed, for the first time, a highly standardized, reproducible, and fast (5 weeks) murine brain organoid model starting from embryonic neural stem cells. We obtained brain organoids, which progressively differentiated and self-organized into 3D networks of functional neurons with dorsal forebrain phenotype. Furthermore, by adding the morphogen WNT3a, we generated brain organoids with specific hippocampal region identity. Overall, our results showed the establishment of a fast, robust and reproducible murine 3D in vitro brain model that may represent a useful tool for high-throughput drug screening and disease modeling.
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