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Loss of CD98HC phosphorylation by ATM impairs antiporter trafficking and drives glutamate toxicity in Ataxia telangiectasia

Author

Listed:
  • July Carolina Romero

    (UT Health San Antonio
    UT Health San Antonio)

  • Sonal S. Tonapi

    (UT Health San Antonio
    UT Health San Antonio)

  • Manish Parihar

    (UT Health San Antonio
    UT Health San Antonio)

  • Eva Loranc

    (UT Health San Antonio)

  • Henry E. Miller

    (UT Health San Antonio)

  • Liesl A. Lawrence

    (UT Health San Antonio
    UT Health San Antonio)

  • Nicklas Bassani

    (UT Health San Antonio
    UT Health San Antonio)

  • Daniel G. Robledo

    (UT Health San Antonio)

  • Lin Cao

    (UT Health San Antonio)

  • Jia Nie

    (Health San Antonio
    Cedars-Sinai Medical Center)

  • Kairi Kanda

    (UT Health San Antonio
    UT Health San Antonio)

  • Aiola Stoja

    (UT Health San Antonio
    UT Health San Antonio)

  • Natalia Garcia

    (UT Health San Antonio
    UT Health San Antonio)

  • Aparna Gorthi

    (UT Health San Antonio
    UT Health San Antonio)

  • Brian J. Stoveken

    (UT Health San Antonio)

  • Teresa W-M Fan

    (University of Kentucky)

  • Teresa A. Cassel

    (University of Kentucky)

  • Shan Zha

    (Columbia University)

  • James D. Lechleiter

    (UT Health San Antonio
    UT Health San Antonio)

  • Nicolas Musi

    (Health San Antonio
    Cedars-Sinai Medical Center
    UT Health San Antonio)

  • Lily Q. Dong

    (UT Health San Antonio)

  • Andrew N. Lane

    (University of Kentucky)

  • Alexander J. R. Bishop

    (UT Health San Antonio
    UT Health San Antonio
    Health San Antonio
    UT Health San Antonio)

Abstract

Ataxia-telangiectasia is a rare genetic disorder characterized by neurological defects, immunodeficiency, cancer predisposition, radiosensitivity, decreased blood vessel integrity, and diabetes. ATM, the protein mutated in Ataxia-telangiectasia, responds to DNA damage and oxidative stress, but its functional relationship to the progressive clinical manifestation of this disorder is not understood. CD98HC chaperones cystine/glutamate and cationic/neutral amino acid antiporters to the cell membrane, and CD98HC phosphorylation by ATM accelerates membrane localization to acutely increase amino acid transport. Loss of ATM impacts tissues reliant on heterodimeric amino acid transporters relevant to Ataxia-telangiectasia phenotypes, such as endothelial cells (telangiectasia) and pancreatic α-cells (fatty liver and diabetes), with toxic glutamate accumulation. Bypassing the antiporters restores intracellular metabolic balance in ATM-deficient cells and mouse models. These findings provide insight into the long-known benefits of N-acetyl cysteine in Ataxia-telangiectasia cells beyond oxidative stress through removing glutamate excess by producing glutathione.

Suggested Citation

  • July Carolina Romero & Sonal S. Tonapi & Manish Parihar & Eva Loranc & Henry E. Miller & Liesl A. Lawrence & Nicklas Bassani & Daniel G. Robledo & Lin Cao & Jia Nie & Kairi Kanda & Aiola Stoja & Natal, 2025. "Loss of CD98HC phosphorylation by ATM impairs antiporter trafficking and drives glutamate toxicity in Ataxia telangiectasia," Nature Communications, Nature, vol. 16(1), pages 1-21, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60304-4
    DOI: 10.1038/s41467-025-60304-4
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    References listed on IDEAS

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    1. Alexander Lachmann & Denis Torre & Alexandra B. Keenan & Kathleen M. Jagodnik & Hoyjin J. Lee & Lily Wang & Moshe C. Silverstein & Avi Ma’ayan, 2018. "Massive mining of publicly available RNA-seq data from human and mouse," Nature Communications, Nature, vol. 9(1), pages 1-10, December.
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    3. Luca Mastroberardino & Benjamin Spindler & Rahel Pfeiffer & Patrick J. Skelly & Jan Loffing & Charles B. Shoemaker & François Verrey, 1998. "Amino-acid transport by heterodimers of 4F2hc/CD98 and members of a permease family," Nature, Nature, vol. 395(6699), pages 288-291, September.
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