Quantitative proteomic analysis reveals key proteins involved in radiation-induced brain injury
Jing Liu, Junshuang Wang, Shuang Lv, Hengjiao Wang, Defu Yang, Ying Zhang, Ying Li, Huiling Qu, Ying Xu, Ying Yan

TL;DR
This study identifies key proteins involved in brain injury caused by radiation therapy, offering potential targets for treatment.
Contribution
The study identifies novel key proteins and pathways involved in radiation-induced brain injury using quantitative proteomics.
Findings
35 differentially expressed proteins were identified, including PHLDA3, APOE, and CPE.
Gene and pathway analyses highlighted roles in lipid transport, cell adhesion, and metabolic processes.
APOE was identified as a key hub protein in radiation-induced brain injury.
Abstract
Radiation-induced brain injury (RIBI) is a significant complication following radiotherapy for brain tumors, leading to neurocognitive deficits and other neurological impairments. This study aims to identify potential biomarkers and therapeutic targets for RIBI by utilizing advanced proteomic techniques to explore the molecular mechanisms underlying RIBI. A rat model of RIBI was established and subjected to whole-brain irradiation (30 Gy). Tandem mass tagging (TMT)-based quantitative proteomics, combined with high-resolution mass spectrometry, was used to identify differentially expressed proteins (DEPs) in the brain tissues of irradiated rats. Gene Ontology (GO) enrichment and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analyses were conducted to identify the biological processes and pathways involved. Protein-protein interaction (PPI) networks were constructed to identify…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsEffects of Radiation Exposure · Traumatic Brain Injury and Neurovascular Disturbances · Endoplasmic Reticulum Stress and Disease
