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CCNE1 amplification is synthetic lethal with PKMYT1 kinase inhibition

Author

Listed:
  • David Gallo

    (Mount Sinai Hospital)

  • Jordan T. F. Young

    (Repare Therapeutics)

  • Jimmy Fourtounis

    (Repare Therapeutics)

  • Giovanni Martino

    (Repare Therapeutics)

  • Alejandro Álvarez-Quilón

    (Mount Sinai Hospital
    Repare Therapeutics)

  • Cynthia Bernier

    (Repare Therapeutics)

  • Nicole M. Duffy

    (Repare Therapeutics)

  • Robert Papp

    (Repare Therapeutics)

  • Anne Roulston

    (Repare Therapeutics)

  • Rino Stocco

    (Repare Therapeutics)

  • Janek Szychowski

    (Repare Therapeutics)

  • Artur Veloso

    (Repare Therapeutics)

  • Hunain Alam

    (Repare Therapeutics)

  • Prasamit S. Baruah

    (Repare Therapeutics)

  • Alexanne Bonneau Fortin

    (Repare Therapeutics)

  • Julian Bowlan

    (Repare Therapeutics)

  • Natasha Chaudhary

    (Mount Sinai Hospital)

  • Jessica Desjardins

    (Repare Therapeutics)

  • Evelyne Dietrich

    (Repare Therapeutics)

  • Sara Fournier

    (Repare Therapeutics)

  • Chloe Fugère-Desjardins

    (Repare Therapeutics)

  • Theo Goullet de Rugy

    (Mount Sinai Hospital
    Repare Therapeutics)

  • Marie-Eve Leclaire

    (Repare Therapeutics)

  • Bingcan Liu

    (Repare Therapeutics)

  • Vivek Bhaskaran

    (Repare Therapeutics)

  • Yael Mamane

    (Repare Therapeutics)

  • Henrique Melo

    (Mount Sinai Hospital)

  • Olivier Nicolas

    (Repare Therapeutics)

  • Akul Singhania

    (Repare Therapeutics)

  • Rachel K. Szilard

    (Mount Sinai Hospital)

  • Ján Tkáč

    (Mount Sinai Hospital)

  • Shou Yun Yin

    (Repare Therapeutics)

  • Stephen J. Morris

    (Repare Therapeutics)

  • Michael Zinda

    (Repare Therapeutics)

  • C. Gary Marshall

    (Repare Therapeutics)

  • Daniel Durocher

    (Mount Sinai Hospital
    University of Toronto)

Abstract

Amplification of the CCNE1 locus on chromosome 19q12 is prevalent in multiple tumour types, particularly in high-grade serous ovarian cancer, uterine tumours and gastro-oesophageal cancers, where high cyclin E levels are associated with genome instability, whole-genome doubling and resistance to cytotoxic and targeted therapies1–4. To uncover therapeutic targets for tumours with CCNE1 amplification, we undertook genome-scale CRISPR–Cas9-based synthetic lethality screens in cellular models of CCNE1 amplification. Here we report that increasing CCNE1 dosage engenders a vulnerability to the inhibition of the PKMYT1 kinase, a negative regulator of CDK1. To inhibit PKMYT1, we developed RP-6306, an orally bioavailable and selective inhibitor that shows single-agent activity and durable tumour regressions when combined with gemcitabine in models of CCNE1 amplification. RP-6306 treatment causes unscheduled activation of CDK1 selectively in CCNE1-overexpressing cells, promoting early mitosis in cells undergoing DNA synthesis. CCNE1 overexpression disrupts CDK1 homeostasis at least in part through an early activation of the MMB–FOXM1 mitotic transcriptional program. We conclude that PKMYT1 inhibition is a promising therapeutic strategy for CCNE1-amplified cancers.

Suggested Citation

  • David Gallo & Jordan T. F. Young & Jimmy Fourtounis & Giovanni Martino & Alejandro Álvarez-Quilón & Cynthia Bernier & Nicole M. Duffy & Robert Papp & Anne Roulston & Rino Stocco & Janek Szychowski & A, 2022. "CCNE1 amplification is synthetic lethal with PKMYT1 kinase inhibition," Nature, Nature, vol. 604(7907), pages 749-756, April.
    • Handle: RePEc:nat:nature:v:604:y:2022:i:7907:d:10.1038_s41586-022-04638-9
    DOI: 10.1038/s41586-022-04638-9
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