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Protein mimetic amyloid inhibitor potently abrogates cancer-associated mutant p53 aggregation and restores tumor suppressor function

Author

Listed:
  • L. Palanikumar

    (Saadiyat Island Campus)

  • Laura Karpauskaite

    (Saadiyat Island Campus)

  • Mohamed Al-Sayegh

    (Saadiyat Island Campus)

  • Ibrahim Chehade

    (Saadiyat Island Campus)

  • Maheen Alam

    (Lahore University of Management Sciences)

  • Sarah Hassan

    (Saadiyat Island Campus)

  • Debabrata Maity

    (New York University)

  • Liaqat Ali

    (Saadiyat Island Campus)

  • Mona Kalmouni

    (Saadiyat Island Campus)

  • Yamanappa Hunashal

    (Saadiyat Island Campus
    DAME, Università di Udine)

  • Jemil Ahmed

    (The University of Denver)

  • Tatiana Houhou

    (Saadiyat Island Campus)

  • Shake Karapetyan

    (Saadiyat Island Campus)

  • Zackary Falls

    (State University of New York (SUNY))

  • Ram Samudrala

    (State University of New York (SUNY))

  • Renu Pasricha

    (Saadiyat Island Campus)

  • Gennaro Esposito

    (Saadiyat Island Campus
    INBB)

  • Ahmed J. Afzal

    (Saadiyat Island Campus)

  • Andrew D. Hamilton

    (New York University)

  • Sunil Kumar

    (The University of Denver)

  • Mazin Magzoub

    (Saadiyat Island Campus)

Abstract

Missense mutations in p53 are severely deleterious and occur in over 50% of all human cancers. The majority of these mutations are located in the inherently unstable DNA-binding domain (DBD), many of which destabilize the domain further and expose its aggregation-prone hydrophobic core, prompting self-assembly of mutant p53 into inactive cytosolic amyloid-like aggregates. Screening an oligopyridylamide library, previously shown to inhibit amyloid formation associated with Alzheimer’s disease and type II diabetes, identified a tripyridylamide, ADH-6, that abrogates self-assembly of the aggregation-nucleating subdomain of mutant p53 DBD. Moreover, ADH-6 targets and dissociates mutant p53 aggregates in human cancer cells, which restores p53’s transcriptional activity, leading to cell cycle arrest and apoptosis. Notably, ADH-6 treatment effectively shrinks xenografts harboring mutant p53, while exhibiting no toxicity to healthy tissue, thereby substantially prolonging survival. This study demonstrates the successful application of a bona fide small-molecule amyloid inhibitor as a potent anticancer agent.

Suggested Citation

  • L. Palanikumar & Laura Karpauskaite & Mohamed Al-Sayegh & Ibrahim Chehade & Maheen Alam & Sarah Hassan & Debabrata Maity & Liaqat Ali & Mona Kalmouni & Yamanappa Hunashal & Jemil Ahmed & Tatiana Houho, 2021. "Protein mimetic amyloid inhibitor potently abrogates cancer-associated mutant p53 aggregation and restores tumor suppressor function," Nature Communications, Nature, vol. 12(1), pages 1-24, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-23985-1
    DOI: 10.1038/s41467-021-23985-1
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    Cited by:

    1. Nicholas H. Stillman & Johnson A. Joseph & Jemil Ahmed & Charles Zuwu Baysah & Ryan A. Dohoney & Tyler D. Ball & Alexandra G. Thomas & Tessa C. Fitch & Courtney M. Donnelly & Sunil Kumar, 2024. "Protein mimetic 2D FAST rescues alpha synuclein aggregation mediated early and post disease Parkinson’s phenotypes," Nature Communications, Nature, vol. 15(1), pages 1-25, December.
    2. Tomas Venit & Oscar Sapkota & Wael Said Abdrabou & Palanikumar Loganathan & Renu Pasricha & Syed Raza Mahmood & Nadine Hosny El Said & Shimaa Sherif & Sneha Thomas & Salah Abdelrazig & Shady Amin & Da, 2023. "Positive regulation of oxidative phosphorylation by nuclear myosin 1 protects cells from metabolic reprogramming and tumorigenesis in mice," Nature Communications, Nature, vol. 14(1), pages 1-24, December.

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