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Topobexin targets the Topoisomerase II ATPase domain for beta isoform-selective inhibition and anthracycline cardioprotection

Author

Listed:
  • Jan Kubeš

    (Charles University; Hradec)

  • Galina Karabanovich

    (Charles University; Hradec)

  • Anh T. Q. Cong

    (Mayo Clinic
    Mayo Clinic)

  • Iuliia Melnikova

    (Charles University; Hradec)

  • Olga Lenčová

    (Charles University; Hradec)

  • Petra Kollárová

    (Charles University; Hradec)

  • Hana Bavlovič Piskáčková

    (Charles University; Hradec)

  • Veronika Keresteš

    (Charles University; Hradec)

  • Lenka Applová

    (Charles University; Hradec)

  • Lise C. M. Arrouye

    (Mayo Clinic)

  • Julia R. Alvey

    (Mayo Clinic)

  • Jasmina Paluncic

    (Mayo Clinic)

  • Taylor L. Witter

    (Mayo Clinic
    Mayo Clinic)

  • Anna Jirkovská

    (Charles University; Hradec)

  • Jiří Kuneš

    (Charles University; Hradec)

  • Petra Štěrbová-Kovaříková

    (Charles University; Hradec)

  • Caroline A. Austin

    (Newcastle University)

  • Martin Štěrba

    (Charles University; Hradec)

  • Tomáš Šimůnek

    (Charles University; Hradec)

  • Jaroslav Roh

    (Charles University; Hradec)

  • Matthew J. Schellenberg

    (Mayo Clinic)

Abstract

Topoisomerase II alpha and beta (TOP2A and TOP2B) isoenzymes perform essential and non-redundant cellular functions. Anthracyclines induce their potent anti-cancer effects primarily via TOP2A, but at the same time they induce a dose limiting cardiotoxicity through TOP2B. Here we describe the development of the obex class of TOP2 inhibitors that bind to a previously unidentified druggable pocket in the TOP2 ATPase domain to act as allosteric catalytic inhibitors by locking the ATPase domain conformation with the capability of isoform-selective inhibition. Through rational drug design we have developed topobexin, which interacts with residues that differ between TOP2A and TOP2B to provide inhibition that is both selective for TOP2B and superior to dexrazoxane. Topobexin is a potent protectant against chronic anthracycline cardiotoxicity in an animal model. This demonstration of TOP2 isoform-specific inhibition underscores the broader potential to improve drug specificity and minimize adverse effects in various medical treatments.

Suggested Citation

  • Jan Kubeš & Galina Karabanovich & Anh T. Q. Cong & Iuliia Melnikova & Olga Lenčová & Petra Kollárová & Hana Bavlovič Piskáčková & Veronika Keresteš & Lenka Applová & Lise C. M. Arrouye & Julia R. Alve, 2025. "Topobexin targets the Topoisomerase II ATPase domain for beta isoform-selective inhibition and anthracycline cardioprotection," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60167-9
    DOI: 10.1038/s41467-025-60167-9
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    References listed on IDEAS

    as
    1. Heeyoun Bunch & Deukyeong Kim & Masahiro Naganuma & Reiko Nakagawa & Anh Cong & Jaehyeon Jeong & Haruhiko Ehara & Hongha Vu & Jeong Ho Chang & Matthew J. Schellenberg & Shun-ichi Sekine, 2023. "ERK2-topoisomerase II regulatory axis is important for gene activation in immediate early genes," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
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