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Lysine-arginine imbalance overcomes therapeutic tolerance governed by the transcription factor E3-lysosome axis in glioblastoma

Author

Listed:
  • Yongwei Jing

    (Kanazawa University)

  • Masahiko Kobayashi

    (Kanazawa University)

  • Mahmoud I. Shoulkamy

    (Kanazawa University
    Minia University)

  • Meiqi Zhou

    (Kanazawa University)

  • Ha Vu

    (Kanazawa University
    Hanoi Medical University)

  • Hiroshi Arakawa

    (Kanazawa University)

  • Hemragul Sabit

    (Kanazawa University)

  • Sadahiro Iwabuchi

    (Wakayama Medical University)

  • Cong Quang Vu

    (Kanazawa University)

  • Atsuko Kasahara

    (Kanazawa University
    Kanazawa University
    Kanazawa University)

  • Masaya Ueno

    (Kanazawa University
    Kanazawa University)

  • Yuko Tadokoro

    (Kanazawa University
    Kanazawa University)

  • Kenta Kurayoshi

    (Kanazawa University)

  • Xi Chen

    (Kanazawa University)

  • Yuhang Yan

    (Kanazawa University)

  • Satoshi Arai

    (Kanazawa University)

  • Shinichi Hashimoto

    (Wakayama Medical University)

  • Tomoyoshi Soga

    (Keio University
    Keio University)

  • Tomoki Todo

    (The University of Tokyo)

  • Mitsutoshi Nakada

    (Kanazawa University)

  • Atsushi Hirao

    (Kanazawa University
    Kanazawa University)

Abstract

Recent advances in cancer therapy have underscored the importance of targeting specific metabolic pathways. In this study, we propose a precision nutrition approach aimed at lysosomal function in glioblastoma multiforme (GBM). Using patient-derived GBM cells, we identify lysosomal activity as a unique metabolic biomarker of tumorigenesis, controlling the efficacy of temozolomide (TMZ), a standard GBM therapy. Employing combined analyses of clinical patient samples and xenograft models, we further elucidate the pivotal role of Transcription Factor Binding To IGHM Enhancer 3 (TFE3), a master regulator of lysosomal biogenesis, in modulating malignant properties, particularly TMZ tolerance, by regulating peroxisome proliferator-activated receptor-gamma coactivator 1−alpha (PGC1α)-mediated mitochondrial activity. Notably, we find that lysine protects GBM cells from lysosomal stress by counteracting arginine’s effects on nitric oxide production. The lysine restriction mimetic, homoarginine administration, significantly enhances the efficacy of anticancer therapies through lysosomal dysfunction. This study underscores the critical role of lysosomal function modulated by amino acid metabolism in GBM pathogenesis and treatment.

Suggested Citation

  • Yongwei Jing & Masahiko Kobayashi & Mahmoud I. Shoulkamy & Meiqi Zhou & Ha Vu & Hiroshi Arakawa & Hemragul Sabit & Sadahiro Iwabuchi & Cong Quang Vu & Atsuko Kasahara & Masaya Ueno & Yuko Tadokoro & K, 2025. "Lysine-arginine imbalance overcomes therapeutic tolerance governed by the transcription factor E3-lysosome axis in glioblastoma," Nature Communications, Nature, vol. 16(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56946-z
    DOI: 10.1038/s41467-025-56946-z
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