多模态单细胞分析揭示了人类大脑新皮层发育过程中的生理成熟。

Multimodal Single-Cell Analysis Reveals Physiological Maturation in the Developing Human Neocortex.

机构信息

Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research, University of California, San Francisco, San Francisco, CA 94143, USA; Department of Neurology, University of California, San Francisco, San Francisco, CA 94143, USA.

出版信息

Neuron. 2019 Apr 3;102(1):143-158.e7. doi: 10.1016/j.neuron.2019.01.027. Epub 2019 Feb 12.

DOI:10.1016/j.neuron.2019.01.027

PMID:30770253

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7648658/

Abstract

In the developing human neocortex, progenitor cells generate diverse cell types prenatally. Progenitor cells and newborn neurons respond to signaling cues, including neurotransmitters. While single-cell RNA sequencing has revealed cellular diversity, physiological heterogeneity has yet to be mapped onto these developing and diverse cell types. By combining measurements of intracellular Ca elevations in response to neurotransmitter receptor agonists and RNA sequencing of the same single cells, we show that Ca responses are cell-type-specific and change dynamically with lineage progression. Physiological response properties predict molecular cell identity and additionally reveal diversity not captured by single-cell transcriptomics. We find that the serotonin receptor HTR2A selectively activates radial glia cells in the developing human, but not mouse, neocortex, and inhibiting HTR2A receptors in human radial glia disrupts the radial glial scaffold. We show highly specific neurotransmitter signaling during neurogenesis in the developing human neocortex and highlight evolutionarily divergent mechanisms of physiological signaling.

摘要

在人类发育中的新皮层中，祖细胞在产前产生多种细胞类型。祖细胞和新生神经元对信号通路有反应，包括神经递质。虽然单细胞 RNA 测序已经揭示了细胞多样性，但生理异质性尚未映射到这些发育中的多样化细胞类型上。通过结合测量对神经递质受体激动剂的细胞内钙升高的反应和对同一单细胞的 RNA 测序，我们表明钙反应是细胞类型特异性的，并随着谱系进展而动态变化。生理反应特性预测分子细胞身份，并且还揭示了单细胞转录组学未捕获的多样性。我们发现，血清素受体 HTR2A 选择性地激活发育中的人类新皮层中的放射状胶质细胞，但不会激活小鼠新皮层中的放射状胶质细胞，并且抑制人类放射状胶质细胞中的 HTR2A 受体可破坏放射状胶质细胞支架。我们在人类新皮层的神经发生过程中展示了高度特异性的神经递质信号，并突出了生理信号的进化上不同的机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3659/7648658/da7fad80ba02/nihms-1053577-f0001.jpg

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