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Limited cell-autonomous anticancer mechanisms in long-lived bats

Author

Listed:
  • Fathima Athar

    (University of Rochester)

  • Zhizhong Zheng

    (University of Rochester)

  • Sebastien Riquier

    (University College Dublin)

  • Max Zacher

    (University of Rochester)

  • J. Yuyang Lu

    (University of Rochester)

  • Yang Zhao

    (University of Rochester)

  • Valentin Volobaev

    (University of Rochester)

  • Dominic Alcock

    (University College Dublin)

  • Alex Galazyuk

    (Northeast Ohio Medical University)

  • Lisa Noelle Cooper

    (Northeast Ohio Medical University)

  • Tony Schountz

    (Colorado State University)

  • Lin-Fa Wang

    (Singapore; SingHealth Duke-NUS Global Health Institute)

  • Emma C. Teeling

    (University College Dublin)

  • Andrei Seluanov

    (University of Rochester
    University of Rochester Medical Center)

  • Vera Gorbunova

    (University of Rochester
    University of Rochester Medical Center)

Abstract

Several bat species live >20–40 years, suggesting that they possess efficient anti-aging and anti-cancer defenses. Here we investigate the requirements for malignant transformation in primary fibroblasts from four bat species Myotis lucifugus, Eptesicus fuscus, Eonycteris spelaea, and Artibeus jamaicensis – spanning the bat evolutionary tree and including the longest-lived genera. We show that bat fibroblasts do not undergo replicative senescence, express active telomerase, and show attenuated SIPs with dampened secretory phenotype. Unexpectedly, unlike other long-lived mammals, bat fibroblasts are readily transformed by two oncogenic “hits”: inactivation of p53 or pRb and activation of HRASG12V. Bat fibroblasts exhibit increased TP53 and MDM2 transcripts and elevated p53-dependent apoptosis. M. lucifugus shows a genomic duplication of TP53. We hypothesize that some bat species have evolved enhanced p53 activity as an additional anti-cancer strategy, similar to elephants. Further, the absence of unique cell-autonomous tumor suppressive mechanisms may suggest that in vivo bats may rely on enhanced immunosurveillance.

Suggested Citation

  • Fathima Athar & Zhizhong Zheng & Sebastien Riquier & Max Zacher & J. Yuyang Lu & Yang Zhao & Valentin Volobaev & Dominic Alcock & Alex Galazyuk & Lisa Noelle Cooper & Tony Schountz & Lin-Fa Wang & Emm, 2025. "Limited cell-autonomous anticancer mechanisms in long-lived bats," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59403-z
    DOI: 10.1038/s41467-025-59403-z
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