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Single-cell and spatial transcriptomics: deciphering brain complexity in health and disease

Item Type:Review
Title:Single-cell and spatial transcriptomics: deciphering brain complexity in health and disease
Creators Name:Piwecka, M., Rajewsky, N. and Rybak-Wolf, A.
Abstract:In the past decade, single-cell technologies have proliferated and improved from their technically challenging beginnings to become common laboratory methods capable of determining the expression of thousands of genes in thousands of cells simultaneously. The field has progressed by taking the CNS as a primary research subject - the cellular complexity and multiplicity of neuronal cell types provide fertile ground for the increasing power of single-cell methods. Current single-cell RNA sequencing methods can quantify gene expression with sufficient accuracy to finely resolve even subtle differences between cell types and states, thus providing a great tool for studying the molecular and cellular repertoire of the CNS and its disorders. However, single-cell RNA sequencing requires the dissociation of tissue samples, which means that the interrelationships between cells are lost. Spatial transcriptomic methods bypass tissue dissociation and retain this spatial information, thereby allowing gene expression to be assessed across thousands of cells within the context of tissue structural organization. Here, we discuss how single-cell and spatially resolved transcriptomics have been contributing to unravelling the pathomechanisms underlying brain disorders. We focus on three areas where we feel these new technologies have provided particularly useful insights: selective neuronal vulnerability, neuroimmune dysfunction and cell-type-specific treatment response. We also discuss the limitations and future directions of single-cell and spatial RNA sequencing technologies.
Keywords:Amyotrophic Lateral Sclerosis, Diseases of the Nervous System, Neurological Disorders
Source:Nature Reviews Neurology
ISSN:1759-4758
Publisher:Nature Publishing Group
Volume:19
Number:6
Page Range:346–362
Date:June 2023
Additional Information:Copyright © Springer Nature Limited 2023
Official Publication:https://doi.org/10.1038/s41582-023-00809-y
External Fulltext:View full text on PubMed Central
PubMed:View item in PubMed

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