Authors
Fangzhou Guo, Teng Deng, Jun Yan, Yong Mo, Qianrong Huang, Qian Jiang, Ligen Mo, Shipeng Ning, Chao Li
Published in
Functional & integrative genomics. Volume 26. Issue 1. Jun 20, 2026. Epub Jun 20, 2026.
Abstract
Glioblastoma (GBM) is characterized by profound intratumoral heterogeneity and an immunosuppressive microenvironment that drive therapeutic resistance and poor prognosis. While both tumor-associated macrophages (TAMs) and ferroptosis have been implicated in glioma progression, their functional interplay remains elusive. Integrating multi-omics data (bulk/single-cell RNA-seq and spatial transcriptomics) from public cohorts, we identified ferroptosis-related genes correlated with monocyte/macrophage infiltration and established a machine learning‑derived 28‑gene prognostic signature with robust predictive performance. Single‑cell analysis revealed elevated expression of ferroptosis-related genes in glioma‑infiltrating monocytes/macrophages. Mechanistically, M2‑polarized macrophages conferred ferroptosis resistance to GBM cells by suppressing NCOA4 and enhancing FTH1 expression, thereby reducing labile iron release. In vivo, co‑implantation of M2 macrophages abrogated the tumor‑suppressive effect of the ferroptosis inducer erastin. Collectively, these findings uncover a previously unrecognized axis of ferroptosis resistance in GBM mediated by the NCOA4-FTH1 pathway and M2 macrophage polarization, highlighting a critical crosstalk between the immune microenvironment and programmed cell death, and offering a potential therapeutic strategy for GBM.
PMID:
42321379
Bibliographic data and abstract were imported from PubMed on 20 Jun 2026.
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