Molecular Systems Biology (Apr 2024)

Genome-wide CRISPR screens identify novel regulators of wild-type and mutant p53 stability

  • YiQing Lü,
  • Tiffany Cho,
  • Saptaparna Mukherjee,
  • Carmen Florencia Suarez,
  • Nicolas S Gonzalez-Foutel,
  • Ahmad Malik,
  • Sebastien Martinez,
  • Dzana Dervovic,
  • Robin Hyunseo Oh,
  • Ellen Langille,
  • Khalid N Al-Zahrani,
  • Lisa Hoeg,
  • Zhen Yuan Lin,
  • Ricky Tsai,
  • Geraldine Mbamalu,
  • Varda Rotter,
  • Patricia Ashton-Prolla,
  • Jason Moffat,
  • Lucia Beatriz Chemes,
  • Anne-Claude Gingras,
  • Moshe Oren,
  • Daniel Durocher,
  • Daniel Schramek

DOI
https://doi.org/10.1038/s44320-024-00032-x
Journal volume & issue
Vol. 20, no. 6
pp. 719 – 740

Abstract

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Abstract Tumor suppressor p53 (TP53) is frequently mutated in cancer, often resulting not only in loss of its tumor-suppressive function but also acquisition of dominant-negative and even oncogenic gain-of-function traits. While wild-type p53 levels are tightly regulated, mutants are typically stabilized in tumors, which is crucial for their oncogenic properties. Here, we systematically profiled the factors that regulate protein stability of wild-type and mutant p53 using marker-based genome-wide CRISPR screens. Most regulators of wild-type p53 also regulate p53 mutants, except for p53 R337H regulators, which are largely private to this mutant. Mechanistically, FBXO42 emerged as a positive regulator for a subset of p53 mutants, working with CCDC6 to control USP28-mediated mutant p53 stabilization. Additionally, C16orf72/HAPSTR1 negatively regulates both wild-type p53 and all tested mutants. C16orf72/HAPSTR1 is commonly amplified in breast cancer, and its overexpression reduces p53 levels in mouse mammary epithelium leading to accelerated breast cancer. This study offers a network perspective on p53 stability regulation, potentially guiding strategies to reinforce wild-type p53 or target mutant p53 in cancer.

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