Proteomic landscape of primary and metastatic brain tumors for heterogeneity discovery

Author:

Yang Shuang1ORCID,Zhou Chengbin2,Zhang Lei1,Xiong Yueting1,Zheng Yongtao2,Bian Liuguan2,Liu Xiaohui1ORCID

Affiliation:

1. Institutes of Biomedical Sciences The Fifth People's Hospital of Shanghai Fudan University Shanghai China

2. Department of Neurosurgery School of Medicine Ruijin Hospital Shanghai Jiao Tong University Shanghai China

Abstract

AbstractPurposeDespite recent advancements in our understanding of driver gene mutations and heterogeneity within brain tumors, whether primary or metastatic (also known as secondary), our comprehension of proteomic changes remains inadequate. The aim of this study is to provide an informative source for brain tumor researches, and distinguish primary brain tumors and secondary brain tumors from extracranial origins based on proteomic analysis.Experimental DesignWe assembled the most frequent brain tumors as follows: gliomas from WHO grade 2 to 4, with IDH1 mutations and wildtypes; brain metastases (BrMs) originating from lung cancer (LC), breast cancer (BC), ovarian cancer (OC), and colorectal cancer (CC). A total of 29 tissue samples were analyzed by label free quantitative mass spectrometry‐based proteomics.ResultsIn total, 8165 protein groups were quantified, of which 4383 proteins were filtered at 50% valid intensity values for downstream analysis. Proteomic analysis of BrMs reveals conserved features shared among multiple origins. While proteomic heterogeneities were found for discriminating different grades of gliomas, as well as IDH1 mutant and wildtype gliomas. In addition, notable distinctions were observed at the pathway level between BrMs and gliomas. Specifically, BrMs exhibited characteristic pathways focused on proliferation and immunomodulation after colonizing the brain, whereas gliomas primarily engaged in invasion processes.Conclusions and Clinical RelevanceWe characterized an extensive proteomic landscape of BrMs and gliomas. These findings have promising implications for the development of targeted therapies for BrMs and gliomas.

Funder

National Natural Science Foundation of China

National Key Research and Development Program of China

Publisher

Wiley

Subject

Clinical Biochemistry

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