960 Chromium Flex enables scFFPE-Seq and single cell-spatial data integration from human tumor blocks

Regular and Young Investigator Award Abstracts Pub Date : 2023-11-01 DOI:10.1136/jitc-2023-sitc2023.0960

Tingsheng Y Drennon, Jawad Abousoud, Ryan Stott, Juan Pablo Romero, Paul Lund, Sarah Taylor, Peter Smibert, Andrew Kohlway

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Abstract

Background

FFPE tissues are the most commonly generated sample type in clinical settings. They provide valuable diagnostic information about disease etiology. However, many existing technologies for profiling gene expression at the RNA level are either incompatible with FFPE tissues due to formaldehyde crosslinking and RNA degradation or lack the ability to resolve expression patterns at single cell resolution.

Methods

The new and highly sensitive Chromium Single Cell Gene Expression Flex assay (Flex) from 10x Genomics uses a probe-based approach to profile the whole transcriptome in fixed samples, including FFPE tissues. The Flex assay enables single cell sequencing of FFPE tissues (scFFPE-Seq) with highly sensitive detection of whole transcriptome gene expression.

Results

To demonstrate the robustness of the Flex assay, we separately dissociated FFPE sections from 38 human tissue blocks containing both healthy and diseased/cancer samples derived from a variety of tissues including Alzheimer’s brain, glioblastoma, breast, colon, heart, liver, lung, ovary, prostate, and skin. Data derived from these samples provided important biological insights including distinct cell clustering along with identification of representative cell types. Additionally, consistent data quality observed across different sections from the same FFPE block highlights the reproducibility and reliability of the assay. The ability to integrate Flex single cell data with Visium CytAssist spatial data from the same FFPE block through spot deconvolution allows for a more comprehensive understanding of biology. Each spot in Visium CytAssist data may include multiple cells. Using spot deconvolution methods that annotate scFFPE data as reference, the proportion of different cell types in each Visium spot can be determined to further refine cell heterogeneity for spatial visualization. After data integration for a colon cancer sample, we identified distinct tumor stroma with plasma cells expressing MZB1 surrounding tumor regions with high expression of BRCA1, nicely overlapping the H&E images. The integration of both platforms opens opportunities to leverage single cell resolution while preserving spatial context.

Conclusions

In summary, Chromium Single Cell Gene Expression Flex enables characterization of the biology preserved in human FFPE tumor samples at a single cell level. The assay expands the capabilities of 10x Genomics’ Chromium platform, enabling cross-assay compatibility with Visium CytAssist Spatial Gene Expression for FFPE samples and serves as a powerful tool to facilitate discoveries in disease progression and therapeutic target development.

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960 Chromium Flex支持scFFPE-Seq和来自人类肿瘤块的单细胞空间数据集成

背景:FFPE组织是临床上最常见的样本类型。它们提供了关于疾病病因的有价值的诊断信息。然而，由于甲醛交联和RNA降解，许多现有的RNA水平基因表达谱技术要么与FFPE组织不相容，要么缺乏在单细胞分辨率下解析表达模式的能力。方法来自10x Genomics的新型高灵敏度铬单细胞基因表达弹性测定(Flex)使用基于探针的方法分析固定样品(包括FFPE组织)的整个转录组。Flex检测能够对FFPE组织进行单细胞测序(scFFPE-Seq)，并对整个转录组基因表达进行高灵敏度检测。为了证明Flex实验的稳健性，我们分别从38个人体组织块中分离出FFPE切片，这些组织块包含来自各种组织的健康和患病/癌症样本，包括阿尔茨海默病的大脑、胶质母细胞瘤、乳腺、结肠、心脏、肝脏、肺、卵巢、前列腺和皮肤。来自这些样本的数据提供了重要的生物学见解，包括不同的细胞集群以及代表性细胞类型的鉴定。此外，在同一FFPE块的不同切片中观察到的一致数据质量突出了该分析的可重复性和可靠性。Flex单细胞数据与Visium CytAssist空间数据通过点反卷积集成在一起，可以更全面地了解生物学。Visium CytAssist数据中的每个点可能包括多个细胞。利用标记scFFPE数据的斑点反褶积方法作为参考，可以确定每个Visium斑点中不同细胞类型的比例，从而进一步细化细胞异质性，实现空间可视化。在对结肠癌样本进行数据整合后，我们发现了不同的肿瘤基质，在BRCA1高表达的肿瘤区域周围有表达MZB1的浆细胞，很好地重叠了H&E图像。两个平台的集成为利用单单元分辨率提供了机会，同时保留了空间环境。总之，铬单细胞基因表达Flex能够在单细胞水平上表征人类FFPE肿瘤样本中保存的生物学特性。该检测扩展了10x Genomics的Chromium平台的功能，使FFPE样品与Visium CytAssist空间基因表达的交叉检测兼容，并作为促进疾病进展和治疗靶点开发的强大工具。

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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Regular and Young Investigator Award Abstracts

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