GigaScience (Aug 2012)

Single-cell sequencing analysis characterizes common and cell-lineage-specific mutations in a muscle-invasive bladder cancer

  • Li Yingrui,
  • Xu Xun,
  • Song Luting,
  • Hou Yong,
  • Li Zesong,
  • Tsang Shirley,
  • Li Fuqiang,
  • Im Kate,
  • Wu Kui,
  • Wu Hanjie,
  • Ye Xiaofei,
  • Li Guibo,
  • Wang Linlin,
  • Zhang Bo,
  • Liang Jie,
  • Xie Wei,
  • Wu Renhua,
  • Jiang Hui,
  • Liu Xiao,
  • Yu Chang,
  • Zheng Hancheng,
  • Jian Min,
  • Nie Liping,
  • Wan Lei,
  • Shi Min,
  • Sun Xiaojuan,
  • Tang Aifa,
  • Guo Guangwu,
  • Gui Yaoting,
  • Cai Zhiming,
  • Li Jingxiang,
  • Wang Wen,
  • Lu Zuhong,
  • Zhang Xiuqing,
  • Bolund Lars,
  • Kristiansen Karsten,
  • Wang Jian,
  • Yang Huanming,
  • Dean Michael,
  • Wang Jun

DOI
https://doi.org/10.1186/2047-217X-1-12
Journal volume & issue
Vol. 1, no. 1
p. 12

Abstract

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Abstract Background Cancers arise through an evolutionary process in which cell populations are subjected to selection; however, to date, the process of bladder cancer, which is one of the most common cancers in the world, remains unknown at a single-cell level. Results We carried out single-cell exome sequencing of 66 individual tumor cells from a muscle-invasive bladder transitional cell carcinoma (TCC). Analyses of the somatic mutant allele frequency spectrum and clonal structure revealed that the tumor cells were derived from a single ancestral cell, but that subsequent evolution occurred, leading to two distinct tumor cell subpopulations. By analyzing recurrently mutant genes in an additional cohort of 99 TCC tumors, we identified genes that might play roles in the maintenance of the ancestral clone and in the muscle-invasive capability of subclones of this bladder cancer, respectively. Conclusions This work provides a new approach of investigating the genetic details of bladder tumoral changes at the single-cell level and a new method for assessing bladder cancer evolution at a cell-population level.

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