临床和转化医学中神经细胞和神经回路的单细胞和空间变化

William Wang, Xuanqi Liu, Diane Catherine Wang
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引用次数: 0

摘要

从单细胞基因表达到功能调节,神经元、神经回路和调节器的时空异质性正在单细胞水平上被揭示出来。利用单细胞多组学和转组学,可以清晰地划分大脑内神经细胞和神经回路的分类、结构和功能通信。这篇社论强调了神经元和神经回路以及调节器的时空异质性,将单细胞水平的神经元多样性和空间组织转化为临床考虑因素,并有助于发现和开发治疗神经疾病的新疗法。据预测,单细胞和空间多组学将与代谢组学图谱和相应的基因表观遗传修饰相结合。细胞中 DNA、RNA 和蛋白质之间的相互作用提供了细胞内功能调控的细节,为将神经细胞亚型/状态的时空多样性转化为临床实践提供了新的机遇。单细胞多组学与四维基因组在人类病理大脑中的应用将为我们的诊断和治疗带来新的里程碑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Single-cell and spatial alterations of neural cells and circuits in clinical and translational medicine

The spatiotemporal heterogeneity of neurons, circuits and regulators is being uncovered at a single-cell level, from the single-cell gene expression to functional regulations. The classifications, architectonics and functional communications amongst neural cells and circuits within the brain can be clearly delineated using single-cell multiomics and transomics. This Editorial highlights the spatiotemporal heterogeneity of neurons and circuits as well as regulators, initiates the translation of neuronal diversity and spatial organisation at single-cell levels into clinical considerations, and enables the discovery and development of new therapies for neurological diseases. It is predicted that single-cell and spatial multiomics will be integrated with metabolomic profiles and corresponding gene epigenetic modifications. The interactions amongst DNAs, RNAs and proteins in a cell provide details of intracellular functional regulations and new opportunities for the translation of temporospatial diversity of neural cell subtypes/states into clinical practice. The application of single-cell multiomics with four-dimensional genome to the human pathological brain will lead us to a new milestone of the diagnosis and treatment.

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