A single cell atlas of the human liver tumor microenvironment

Cited by: 30

Update date: 2020-12-18

Description

A single cell atlas of the human liver tumor microenvironment. Malignant cell growth is fueled by interactions between tumor cells and the stromal cells composing the tumor microenvironment. The human liver is a major site of tumors and metastases, but molecular identities and intercellular interactions of different cell types have not been resolved in these pathologies. Here, we apply single cell RNA-sequencing and spatial analysis of malignant and adjacent non-malignant liver tissues from five patients with cholangiocarcinoma or liver metastases. We find that stromal cells exhibit recurring, patient-independent expression programs, and reconstruct a ligand-receptor map that highlights recurring tumor-stroma interactions. By combining transcriptomics of laser-capture microdissected regions, we reconstruct a zonation atlas of hepatocytes in the non-malignant sites and characterize the spatial distribution of each cell type across the tumor microenvironment. Our analysis provides a resource for understanding human liver malignancies and may expose potential points of interventions.

Keywords

Spatial Transcriptomics

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A single cell atlas of the human liver tumor microenvironment.

Authors: Massalha, Hassan; Bahar Halpern, Keren; Abu-Gazala, Samir; Jana, Tamar; Massasa, Efi E; Moor, Andreas E; Buchauer, Lisa; Rozenberg, Milena; Pikarsky, Eli; Amit, Ido; Zamir, Gideon; Itzkovitz, Shalev

Journal: Mol Syst Biol,2020/12;16(12):e9682.

Keywords:Spatial Transcriptomics; human cell atlas; liver cancer; single cell RNAseq; spatial transcriptomics; tumor-stroma interactions

IF: 13.068

Cited by: 62

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Authors: Cunningham, Rory P; Porat-Shliom, Natalie

Journal: Front Physiol,2021;12:732929.

Keywords:smFISH; Spatial Transcriptomics; LCM-seq; architecture; liver; physiology; technologies; zonation

IF: 0

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Spatial gene expression maps of the intestinal lymphoid follicle and associated epithelium identify zonated expression programs.

Authors: Cohen, Noam; Massalha, Hassan; Ben-Moshe, Shani; Egozi, Adi; Rozenberg, Milena; Bahar Halpern, Keren; Itzkovitz, Shalev

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Keywords:smFISH; LCM-seq; Spatial Gene Expression

IF: 9.593

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Journal: Hepatol Commun,2022/04;6(4):821-840.

Keywords:Spatial Transcriptomics

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Cited by: 68

Spatial omics: Navigating to the golden era of cancer research.

Authors: Wu, Yingcheng; Cheng, Yifei; Wang, Xiangdong; Fan, Jia; Gao, Qiang

Journal: Clin Transl Med,2022/01;12(1):e696.

Keywords:osmFISH; Slide-seqV2; STARmap; HDST; smFISH; LCM-seq; Spatial Omics; mIF; Seurat; ISS; Slide-seq; ExFISH; GEO-seq; SM-Omics; seqFISH+; ...More

IF: 8.554

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Technique integration of single-cell RNA sequencing with spatially resolved transcriptomics in the tumor microenvironment.

Authors: Yan, Hailan; Shi, Jinghua; Dai, Yi; Li, Xiaoyan; Wu, Yushi; Zhang, Jing; Gu, Zhiyue; Zhang, Chenyu; Leng, Jinhua

Journal: Cancer Cell Int,2022/4/19;22(1):155.

Keywords:smFISH; Spatial reconstruction; seqFISH+; ISS; osmFISH; Spatial Transcriptomics; STARmap; FISSEQ; XYZeq; LCM-seq; Integration; Single-cell RNA sequencing; Spatially resolved transcriptomics; Tumor microenvironment

IF: 0

Cited by: 2

Spatially resolved transcriptomics provide a new method for cancer research.

Authors: Zheng, Bowen; Fang, Lin

Journal: J Exp Clin Cancer Res,2022/5/19;41(1):179.

Keywords:smFISH; ZipSeq; ExSeq; seqFISH+; 10X Visium; CODEX; MERFISH; Slide-seq; osmFISH; ISS; DBiT-seq; Spatial Transcriptomics; STARmap; HDST; FISSEQ; ...More

IF: 12.658

Cited by: 10

Tool types

Molecular Characterize

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URLshttps://doi.org/10.5281/zenodo.4267877