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Spatial transcriptomics reveals niche-specific enrichment and vulnerabilities of radial glial stem-like cells in malignant gliomas

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Listed:
  • Yanming Ren

    (Sichuan University)

  • Zongyao Huang

    (Sichuan University)

  • Lingling Zhou

    (Sichuan University)

  • Peng Xiao

    (Sichuan University)

  • Junwei Song

    (Sichuan University)

  • Ping He

    (Sichuan University)

  • Chuanxing Xie

    (Sichuan University)

  • Ran Zhou

    (Sichuan University)

  • Menghan Li

    (Sichuan University)

  • Xiangqun Dong

    (Sichuan University)

  • Qing Mao

    (Sichuan University)

  • Chao You

    (Sichuan University)

  • Jianguo Xu

    (Sichuan University)

  • Yanhui Liu

    (Sichuan University)

  • Zhigang Lan

    (Sichuan University)

  • Tiejun Zhang

    (Sichuan University)

  • Qi Gan

    (Sichuan University)

  • Yuan Yang

    (Sichuan University)

  • Tengyun Chen

    (Sichuan University)

  • Bowen Huang

    (Sichuan University)

  • Xiang Yang

    (Sichuan University)

  • Anqi Xiao

    (Sichuan University)

  • Yun Ou

    (Sichuan University)

  • Zhengzheng Su

    (Sichuan University)

  • Lu Chen

    (Sichuan University)

  • Yan Zhang

    (Sichuan University)

  • Yan Ju

    (Sichuan University)

  • Yuekang Zhang

    (Sichuan University)

  • Yuan Wang

    (Sichuan University)

Abstract

Diffuse midline glioma-H3K27M mutant (DMG) and glioblastoma (GBM) are the most lethal brain tumors that primarily occur in pediatric and adult patients, respectively. Both tumors exhibit significant heterogeneity, shaped by distinct genetic/epigenetic drivers, transcriptional programs including RNA splicing, and microenvironmental cues in glioma niches. However, the spatial organization of cellular states and niche-specific regulatory programs remain to be investigated. Here, we perform a spatial profiling of DMG and GBM combining short- and long-read spatial transcriptomics, and single-cell transcriptomic datasets. We identify clinically relevant transcriptional programs, RNA isoform diversity, and multi-cellular ecosystems across different glioma niches. We find that while the tumor core enriches for oligodendrocyte precursor-like cells, radial glial stem-like (RG-like) cells are enriched in the neuron-rich invasive niche in both DMG and GBM. Further, we identify niche-specific regulatory programs for RG-like cells, and functionally confirm that FAM20C mediates invasive growth of RG-like cells in a neuron-rich microenvironment in a human neural stem cell derived orthotopic DMG model. Together, our results provide a blueprint for understanding the spatial architecture and niche-specific vulnerabilities of DMG and GBM.

Suggested Citation

  • Yanming Ren & Zongyao Huang & Lingling Zhou & Peng Xiao & Junwei Song & Ping He & Chuanxing Xie & Ran Zhou & Menghan Li & Xiangqun Dong & Qing Mao & Chao You & Jianguo Xu & Yanhui Liu & Zhigang Lan & , 2023. "Spatial transcriptomics reveals niche-specific enrichment and vulnerabilities of radial glial stem-like cells in malignant gliomas," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36707-6
    DOI: 10.1038/s41467-023-36707-6
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    1. Yuanning Zheng & Francisco Carrillo-Perez & Marija Pizurica & Dieter Henrik Heiland & Olivier Gevaert, 2023. "Spatial cellular architecture predicts prognosis in glioblastoma," Nature Communications, Nature, vol. 14(1), pages 1-16, December.

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