Pan-cancer single-cell analysis reveals the heterogeneity and plasticity of cancer-associated fibroblasts in the tumor microenvironment

Han Luo; Xuyang Xia; Li‐Bin Huang; Hyunsu An; Minyuan Cao; Gyeong Dae Kim; Hai‐Ning Chen; Weihan Zhang; Yang Shu; Xiangyu Kong; Zhixiang Ren; Peiheng Li; Yang Liu; Huairong Tang; Ronghao Sun; Chao Li; Bing Bai; Weiguo Jia; Yi Liu; Wei Zhang; Li Yang; Yong Peng; Lunzhi Dai; Hongbo Hu; Yong Jiang; Yiguo Hu; Jingqiang Zhu; Hong Jiang; Zhihui Li; Carlos Caulı́n; Jihwan Park; Heng Xu

doi:10.1038/s41467-022-34395-2

Pan-cancer single-cell analysis reveals the heterogeneity and plasticity of cancer-associated fibroblasts in the tumor microenvironment

Han Luo(Sichuan University), Xuyang Xia(Sichuan University), Li‐Bin Huang(Sichuan University), Hyunsu An(Gwangju Institute of Science and Technology), Minyuan Cao(Sichuan University), Gyeong Dae Kim(Gwangju Institute of Science and Technology), Hai‐Ning Chen(Sichuan University), Weihan Zhang(Central South University), Yang Shu(Sichuan University), Xiangyu Kong(Sichuan University), Zhixiang Ren(Sichuan University), Peiheng Li(Sichuan University), Yang Liu(Sichuan University), Huairong Tang(Sichuan University), Ronghao Sun(University of Electronic Science and Technology of China), Chao Li(University of Electronic Science and Technology of China), Bing Bai(Kunming University of Science and Technology), Weiguo Jia(Sichuan University), Yi Liu(Sichuan University), Wei Zhang(Central South University), Li Yang(Sichuan University), Yong Peng(Sichuan University), Lunzhi Dai(Sichuan University), Hongbo Hu(Sichuan University), Yong Jiang(Sichuan University), Yiguo Hu(Sichuan University), Jingqiang Zhu(Sichuan University), Hong Jiang(Sichuan University), Zhihui Li(Sichuan University), Carlos Caulı́n(University of Arizona), Jihwan Park(Gwangju Institute of Science and Technology), Heng Xu(Sichuan University)

Nature Communications

November 4, 2022

10.1038/s41467-022-34395-2

Cited by 545Open Access

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Abstract

Abstract Cancer-associated fibroblasts (CAFs) are the predominant components of the tumor microenvironment (TME) and influence cancer hallmarks, but without systematic investigation on their ubiquitous characteristics across different cancer types. Here, we perform pan-cancer analysis on 226 samples across 10 solid cancer types to profile the TME at single-cell resolution, illustrating the commonalities/plasticity of heterogenous CAFs. Activation trajectory of the major CAF types is divided into three states, exhibiting distinct interactions with other cell components, and relating to prognosis of immunotherapy. Moreover, minor CAF components represent the alternative origin from other TME components (e.g., endothelia and macrophages). Particularly, the ubiquitous presentation of endothelial-to-mesenchymal transition CAF, which may interact with proximal SPP 1 + tumor-associated macrophages, is implicated in endothelial-to-mesenchymal transition and survival stratifications. Our study comprehensively profiles the shared characteristics and dynamics of CAFs, and highlight their heterogeneity and plasticity across different cancer types. Browser of integrated pan-cancer single-cell information is available at https://gist-fgl.github.io/sc-caf-atlas/ .

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