Scalable spatial single-cell transcriptomics and translatomics in 3D thick tissue blocks

bioRxiv Pub Date : 2024-08-08 DOI:10.1101/2024.08.05.606553
Xin Sui, Jennifer A. Lo, Shuchen Luo, Yichun He, Zefang Tang, Zuwan Lin, Yiming Zhou, Wendy Xueyi Wang, Jia Liu, Xiao Wang
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Abstract

Characterizing the transcriptional and translational gene expression patterns at the single-cell level within their three-dimensional (3D) tissue context is essential for revealing how genes shape tissue structure and function in health and disease. However, most existing spatial profiling techniques are limited to 5-20 µm thin tissue sections. Here, we developed Deep-STARmap and Deep-RIBOmap, which enable 3D in situ quantification of thousands of gene transcripts and their corresponding translation activities, respectively, within 200-µm thick tissue blocks. This is achieved through scalable probe synthesis, hydrogel embedding with efficient probe anchoring, and robust cDNA crosslinking. We first utilized Deep-STARmap in combination with multicolor fluorescent protein imaging for simultaneous molecular cell typing and 3D neuron morphology tracing in the mouse brain. We also demonstrate that 3D spatial profiling facilitates comprehensive and quantitative analysis of tumor-immune interactions in human skin cancer.
三维厚组织块中的可扩展空间单细胞转录组学和易位组学
在三维(3D)组织背景下表征单细胞水平的转录和翻译基因表达模式,对于揭示基因如何在健康和疾病中塑造组织结构和功能至关重要。然而,现有的大多数空间剖析技术仅限于 5-20 微米薄的组织切片。在这里,我们开发了 Deep-STARmap 和 Deep-RIBOmap,可分别在 200 微米厚的组织块内对数千个基因转录本及其相应的翻译活动进行三维原位定量。这是通过可扩展的探针合成、具有高效探针锚定功能的水凝胶包埋和稳健的 cDNA 交联实现的。我们首次将 Deep-STARmap 与多色荧光蛋白成像相结合,在小鼠大脑中同时进行分子细胞分型和三维神经元形态追踪。我们还证明了三维空间图谱有助于对人类皮肤癌中肿瘤与免疫的相互作用进行全面的定量分析。
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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