Upgrading the Physiological Relevance of Human Brain Organoids

Del Dosso Ashley; Urenda Jean-Paul; Tuan Nguyen; Quadrato Giorgia

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Upgrading the Physiological Relevance of Human Brain Organoids

机译：提升人脑器有机体的生理相关性

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The recent advent of human pluripotent stem cell (PSC)-derived 3D brain organoids has opened a window into aspects of human brain development that were not accessible before, allowing tractable monitoring and assessment of early developmental processes. However, their broad and effective use for modeling later stages of human brain development and disease is hampered by the lack of a stereotypic anatomical organization, which limits maturation processes dependent upon formation of unique cellular interactions and short- and long-range network connectivity. Emerging methods and technologies aimed at tighter regulatory control through bioengineering approaches, along with newer unbiased organoid analysis readouts, should resolve several of the current limitations. Here, we review recent advances in brain organoid generation and characterization with a focus on highlighting future directions utilizing interdisciplinary strategies that will be important for improving the physiological relevance of this model system.

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《Neuron》 |2020年第6期|共15页
作者
Del Dosso Ashley; Urenda Jean-Paul; Tuan Nguyen; Quadrato Giorgia;
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作者单位

Univ Southern Calif Keck Sch Med Dept Stem Cell Biol &

Regenerat Med Los Angeles CA 90033 USA;

Univ Southern Calif Keck Sch Med Dept Stem Cell Biol &

Regenerat Med Los Angeles CA 90033 USA;

Univ Southern Calif Keck Sch Med Dept Stem Cell Biol &

Regenerat Med Los Angeles CA 90033 USA;

Univ Southern Calif Keck Sch Med Dept Stem Cell Biol &

Regenerat Med Los Angeles CA 90033 USA;

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正文语种 eng
中图分类神经病学;
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3. Zika virus infection induces RNAi-mediated antiviral immunity in human neural progenitors and brain organoids [J] . Yan-Peng Xu, Rong-Rong Zhang, Meng-Li Cheng, 细胞研究（英文版） . 2019,第004期
4. Cerebral organoids exhibit mature neurons and astrocytes and recapitulate electrophysiological activity of the human brain [J] . Abraam M. Yakoub 中国神经再生研究（英文版） . 2019,第005期
5. Stem cell-based 3D brain organoids for mimicking, investigating, and challenging Alzheimer 's diseases [J] . Federica Cordella, Carlo Brighi, Alessandro Soloperto, 中国神经再生研究（英文版） . 2022,第002期
6. Challenges in Physiological Phenotyping of hiPSC-Derived Neurons: From 2D Cultures to 3D Brain Organoids [J] . Mateos-Aparicio Pedro, Bello Sabina A., Rodríguez-Moreno Antonio Frontiers in Cell and Developmental Biology . 2020,第1期

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7. Deconstructing and reconstructing the human brain with regionally specified brain organoids [J] . Xiang Yangfei, Cakir Bilal, Park In-Hyun Seminars in cell and developmental biology . 2021,第1期

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8. Tackling mitochondrial diversity in brain function: from animal models to human brain organoids [J] . The international journal of biochemistry and cell biology . 2020,第期

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9. Co-Culture of a Brain Organoid Derived from Human iPSCs and Vasculature on a Chip [C] . Yohei Isshiki, Taikopaul Kaneko, Atsushi Tamada, IEEE International Conference on Micro Electro Mechanical Systems . 2020

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10. Modeling Human Brain Development and Diseases Using Human Induced-Pluripotent Stem Cell-derived Organoids [D] . ?Qian, Xuyu 2020

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11. Cystatin B Involvement in Synapse Physiology of Rodent Brains and Human Cerebral Organoids [O] . Eduardo Penna, Angela Cerciello, Angela Chambery, 2019

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13. Rodent Leydig Cell Tumorigenesis: A Review of the Physiology, Pathology, Mechanisms and Relevance to Humans, with Cover Letter dated 12/22/1997 [R] . 1998

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Upgrading the Physiological Relevance of Human Brain Organoids

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