Mechanistic insight into glioma through spatially multidimensional proteomics

Mechanistic insight into glioma through spatially multidimensional proteomics

Characterizing the tumor microenvironment at the molecular level is essential for understanding the mechanisms of tumorigenesis and evolution. However, the specificity of the blood proteome in localized region of the tumor and its linkages with other systems is difficult to investigate. Here, we pro...

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Veröffentlicht in:Science advances 2024-02, Vol.10 (7), p.eadk1721-eadk1721
Hauptverfasser: Shen, Lei, Zhang, Zhourui, Wu, Pengfei, Yang, Jingyi, Cai, Yuankun, Chen, Keyu, Chai, Songshan, Zhao, Jingwei, Chen, Hongyu, Dai, Xuan, Yang, Bangkun, Wei, Wei, Dong, Lixin, Chen, Jincao, Jiang, Pucha, Cao, Changjun, Ma, Chao, Xu, Chengshi, Zou, Yichun, Zhang, Jibo, Xiong, Wenping, Li, Zhengwei, Xu, Shuangxiang, Shu, Bing, Wang, Mengyang, Li, Zejin, Wan, Qiongqiong, Xiong, Nanxiang, Chen, Suming
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container_issue 7
container_start_page eadk1721
container_title Science advances
container_volume 10
creator Shen, Lei
Zhang, Zhourui
Wu, Pengfei
Yang, Jingyi
Cai, Yuankun
Chen, Keyu
Chai, Songshan
Zhao, Jingwei
Chen, Hongyu
Dai, Xuan
Yang, Bangkun
Wei, Wei
Dong, Lixin
Chen, Jincao
Jiang, Pucha
Cao, Changjun
Ma, Chao
Xu, Chengshi
Zou, Yichun
Zhang, Jibo
Xiong, Wenping
Li, Zhengwei
Xu, Shuangxiang
Shu, Bing
Wang, Mengyang
Li, Zejin
Wan, Qiongqiong
Xiong, Nanxiang
Chen, Suming
description Characterizing the tumor microenvironment at the molecular level is essential for understanding the mechanisms of tumorigenesis and evolution. However, the specificity of the blood proteome in localized region of the tumor and its linkages with other systems is difficult to investigate. Here, we propose a spatially multidimensional comparative proteomics strategy using glioma as an example. The blood proteome signature of tumor microenvironment was specifically identified by in situ collection of arterial and venous blood from the glioma region of the brain for comparison with peripheral blood. Also, by integrating with different dimensions of tissue and peripheral blood proteomics, the information on the genesis, migration, and exchange of glioma-associated proteins was revealed, which provided a powerful method for tumor mechanism research and biomarker discovery. The study recruited multidimensional clinical cohorts, allowing the proteomic results to corroborate each other, reliably revealing biological processes specific to gliomas, and identifying highly accurate biomarkers.
doi_str_mv 10.1126/sciadv.adk1721
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title Mechanistic insight into glioma through spatially multidimensional proteomics
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