5o1d Citations

Aminobenzothiazole derivatives stabilize the thermolabile p53 cancer mutant Y220C and show anticancer activity in p53-Y220C cell lines.
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Baud MGJ, Bauer MR, Verduci L, Dingler FA, Patel KJ, Horil Roy D, Joerger AC, Fersht AR
OpenAccess logo Eur J Med Chem 152 101-114 (2018)
Related entries: 5o1a, 5o1b, 5o1c, 5o1e, 5o1f, 5o1g, 5o1h, 5o1i

Cited: 34 times
EuropePMC logo PMID: 29702446

Abstract

Many cancers have the tumor suppressor p53 inactivated by mutation, making reactivation of mutant p53 with small molecules a promising strategy for the development of novel anticancer therapeutics. The oncogenic p53 mutation Y220C, which accounts for approximately 100,000 cancer cases per year, creates an extended surface crevice in the DNA-binding domain, which destabilizes p53 and causes denaturation and aggregation. Here, we describe the structure-guided design of a novel class of small-molecule Y220C stabilizers and the challenging synthetic routes developed in the process. The synthesized chemical probe MB710, an aminobenzothiazole derivative, binds tightly to the Y220C pocket and stabilizes p53-Y220C in vitro. MB725, an ethylamide analogue of MB710, induced selective viability reduction in several p53-Y220C cancer cell lines while being well tolerated in control cell lines. Reduction of viability correlated with increased and selective transcription of p53 target genes such as BTG2, p21, PUMA, FAS, TNF, and TNFRSF10B, which promote apoptosis and cell cycle arrest, suggesting compound-mediated transcriptional activation of the Y220C mutant. Our data provide a framework for the development of a class of potent, non-toxic compounds for reactivating the Y220C mutant in anticancer therapy.

Articles - 5o1d mentioned but not cited (1)

  1. Aminobenzothiazole derivatives stabilize the thermolabile p53 cancer mutant Y220C and show anticancer activity in p53-Y220C cell lines. Baud MGJ, Bauer MR, Verduci L, Dingler FA, Patel KJ, Horil Roy D, Joerger AC, Fersht AR. Eur J Med Chem 152 101-114 (2018)


Reviews citing this publication (13)

  1. Key Players in the Mutant p53 Team: Small Molecules, Gene Editing, Immunotherapy. Chasov V, Mirgayazova R, Zmievskaya E, Khadiullina R, Valiullina A, Stephenson Clarke J, Rizvanov A, Baud MGJ, Bulatov E. Front Oncol 10 1460 (2020)
  2. The Status of p53 Oligomeric and Aggregation States in Cancer. de Oliveira GAP, Petronilho EC, Pedrote MM, Marques MA, Vieira TCRG, Cino EA, Silva JL. Biomolecules 10 E548 (2020)
  3. Structural and Drug Targeting Insights on Mutant p53. Gomes AS, Ramos H, Inga A, Sousa E, Saraiva L. Cancers (Basel) 13 3344 (2021)
  4. Targeting p53 pathways: mechanisms, structures, and advances in therapy. Wang H, Guo M, Wei H, Chen Y. Signal Transduct Target Ther 8 92 (2023)
  5. Advanced Strategies for Therapeutic Targeting of Wild-Type and Mutant p53 in Cancer. Zhang S, Carlsen L, Hernandez Borrero L, Seyhan AA, Tian X, El-Deiry WS. Biomolecules 12 548 (2022)
  6. Salvation of the fallen angel: Reactivating mutant p53. Li Y, Wang Z, Chen Y, Petersen RB, Zheng L, Huang K. Br J Pharmacol 176 817-831 (2019)
  7. Follow the Mutations: Toward Class-Specific, Small-Molecule Reactivation of p53. Loh SN. Biomolecules 10 E303 (2020)
  8. Therapeutic Strategies to Activate p53. Aguilar A, Wang S. Pharmaceuticals (Basel) 16 24 (2022)
  9. Transition of amyloid/mutant p53 from tumor suppressor to an oncogene and therapeutic approaches to ameliorate metastasis and cancer stemness. Sengupta S, Ghufran SM, Khan A, Biswas S, Roychoudhury S. Cancer Cell Int 22 416 (2022)
  10. p53 and Zinc: A Malleable Relationship. Ha JH, Prela O, Carpizo DR, Loh SN. Front Mol Biosci 9 895887 (2022)
  11. Anticancer Therapeutic Strategies Targeting p53 Aggregation. Ferretti GDS, Quarti J, Dos Santos G, Rangel LP, Silva JL. Int J Mol Sci 23 11023 (2022)
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  13. 2-Aminobenzothiazoles in anticancer drug design and discovery. Huang G, Cierpicki T, Grembecka J. Bioorg Chem 135 106477 (2023)

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