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T cell toxicity induced by tigecycline binding to the mitochondrial ribosome

Author

Listed:
  • Qiuya Shao

    (The First Affiliated Hospital of Xi’an Jiaotong University
    Karolinska Institutet)

  • Anas Khawaja

    (Karolinska Institutet)

  • Minh Duc Nguyen

    (Karolinska Institutet
    Phenikaa University)

  • Vivek Singh

    (Karolinska Institutet)

  • Jingdian Zhang

    (Karolinska Institutet)

  • Yong Liu

    (Karolinska Institutet)

  • Joel Nordin

    (Karolinska Institutet)

  • Monika Adori

    (Karolinska Institutet)

  • C. Axel Innis

    (Institut National de la Santé et de la Recherche Médicale)

  • Xaquin Castro Dopico

    (Karolinska Institutet
    Aarhus Universitet)

  • Joanna Rorbach

    (Karolinska Institutet)

Abstract

Tetracyclines are essential bacterial protein synthesis inhibitors under continual development to combat antibiotic resistance yet suffer from unwanted side effects. Mitoribosomes - responsible for generating oxidative phosphorylation (OXPHOS) subunits - share structural similarities with bacterial machinery and may suffer from cross-reactivity. Since lymphocytes rely upon OXPHOS upregulation to establish immunity, we set out to assess the impact of ribosome-targeting antibiotics on human T cells. We find tigecycline, a third-generation tetracycline, to be the most cytotoxic compound tested. In vitro, 5–10 μM tigecycline inhibits mitochondrial but not cytosolic translation, mitochondrial complex I, III and IV expression, and curtails the activation and expansion of unique T cell subsets. By cryo-EM, we find tigecycline to occupy three sites on T cell mitoribosomes. In addition to the conserved A-site found in bacteria, tigecycline also attaches to the peptidyl transferase center of the large subunit. Furthermore, a third, distinct binding site on the large subunit, aligns with helices analogous to those in bacteria, albeit lacking methylation in humans. The data provide a mechanism to explain part of the anti-inflammatory effects of these drugs and inform antibiotic design.

Suggested Citation

  • Qiuya Shao & Anas Khawaja & Minh Duc Nguyen & Vivek Singh & Jingdian Zhang & Yong Liu & Joel Nordin & Monika Adori & C. Axel Innis & Xaquin Castro Dopico & Joanna Rorbach, 2025. "T cell toxicity induced by tigecycline binding to the mitochondrial ribosome," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59388-9
    DOI: 10.1038/s41467-025-59388-9
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    References listed on IDEAS

    as
    1. Xiang Li & Mengjiao Wang & Timo Denk & Robert Buschauer & Yi Li & Roland Beckmann & Jingdong Cheng, 2024. "Structural basis for differential inhibition of eukaryotic ribosomes by tigecycline," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    2. Ravi Kiran Koripella & Ayush Deep & Ekansh K. Agrawal & Pooja Keshavan & Nilesh K. Banavali & Rajendra K. Agrawal, 2021. "Distinct mechanisms of the human mitoribosome recycling and antibiotic resistance," Nature Communications, Nature, vol. 12(1), pages 1-13, December.
    3. A. Phillip West & William Khoury-Hanold & Matthew Staron & Michal C. Tal & Cristiana M. Pineda & Sabine M. Lang & Megan Bestwick & Brett A. Duguay & Nuno Raimundo & Donna A. MacDuff & Susan M. Kaech &, 2015. "Mitochondrial DNA stress primes the antiviral innate immune response," Nature, Nature, vol. 520(7548), pages 553-557, April.
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    5. Eva Kummer & Marc Leibundgut & Oliver Rackham & Richard G. Lee & Daniel Boehringer & Aleksandra Filipovska & Nenad Ban, 2018. "Unique features of mammalian mitochondrial translation initiation revealed by cryo-EM," Nature, Nature, vol. 560(7717), pages 263-267, August.
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