Single-cell Exome Sequencing Reveals Single-nucleotide Mutation Characteristics of a Kidney Tumor

Overview

Journal Cell

Publisher Cell Press

Specialty Cell Biology

Date 2012 Mar 6

PMID 22385958

Citations 334

Authors

Xun Xu

Yong Hou

Xuyang Yin

Li Bao

Aifa Tang

Luting Song

Fuqiang Li

Shirley Tsang

Kui Wu

Hanjie Wu

Weiming He

Liang Zeng

Manjie Xing

Renhua Wu

Hui Jiang

Xiao Liu

Dandan Cao

Guangwu Guo

Xueda Hu

Yaoting Gui

Zesong Li

Wenyue Xie

Xiaojuan Sun

Min Shi

Zhiming Cai

Bin Wang

Meiming Zhong

Jingxiang Li

Zuhong Lu

Ning Gu

Xiuqing Zhang

Laurie Goodman

Lars Bolund

Jian Wang

Huanming Yang

Karsten Kristiansen

Michael Dean

Yingrui Li

Jun Wang

Affiliations

Soon will be listed here.

Abstract

Clear cell renal cell carcinoma (ccRCC) is the most common kidney cancer and has very few mutations that are shared between different patients. To better understand the intratumoral genetics underlying mutations of ccRCC, we carried out single-cell exome sequencing on a ccRCC tumor and its adjacent kidney tissue. Our data indicate that this tumor was unlikely to have resulted from mutations in VHL and PBRM1. Quantitative population genetic analysis indicates that the tumor did not contain any significant clonal subpopulations and also showed that mutations that had different allele frequencies within the population also had different mutation spectrums. Analyses of these data allowed us to delineate a detailed intratumoral genetic landscape at a single-cell level. Our pilot study demonstrates that ccRCC may be more genetically complex than previously thought and provides information that can lead to new ways to investigate individual tumors, with the aim of developing more effective cellular targeted therapies.

Citing Articles

Single-Cell Sequencing: Genomic and Transcriptomic Approaches in Cancer Cell Biology.

Ortega-Batista A, Jaen-Alvarado Y, Moreno-Labrador D, Gomez N, Garcia G, Guerrero E Int J Mol Sci. 2025; 26(5).

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Leveraging Single-Cell Multi-Omics to Decode Tumor Microenvironment Diversity and Therapeutic Resistance.

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PMID: 39861138 PMC: 11768313. DOI: 10.3390/ph18010075.

Recording Lineage History with Cellular Barcodes in the Mammary Epithelium and in Breast Cancer.

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PMID: 39821021 DOI: 10.1007/978-3-031-70875-6_5.

Toward a CRISPR-based mouse model of -deficient clear cell kidney cancer: Initial experience and lessons learned.

Stransky L, Gao W, Schmidt L, Bi K, Ricketts C, Ramesh V Proc Natl Acad Sci U S A. 2024; 121(41):e2408549121.

PMID: 39365820 PMC: 11474080. DOI: 10.1073/pnas.2408549121.

Mugen-UMAP: UMAP visualization and clustering of mutated genes in single-cell DNA sequencing data.

Li T, Zou Y, Li X, Wong T, Rodrigo A BMC Bioinformatics. 2024; 25(1):308.

PMID: 39333868 PMC: 11437917. DOI: 10.1186/s12859-024-05928-x.

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