Cell Reports Medicine (Sep 2021)

CCNE1 copy number is a biomarker for response to combination WEE1-ATR inhibition in ovarian and endometrial cancer models

  • Haineng Xu,
  • Erin George,
  • Yasuto Kinose,
  • Hyoung Kim,
  • Jennifer B. Shah,
  • Jasmine D. Peake,
  • Benjamin Ferman,
  • Sergey Medvedev,
  • Thomas Murtha,
  • Carter J. Barger,
  • Kyle M. Devins,
  • Kurt D’Andrea,
  • Bradley Wubbenhorst,
  • Lauren E. Schwartz,
  • Wei-Ting Hwang,
  • Gordon B. Mills,
  • Katherine L. Nathanson,
  • Adam R. Karpf,
  • Ronny Drapkin,
  • Eric J. Brown,
  • Fiona Simpkins

Journal volume & issue
Vol. 2, no. 9
p. 100394

Abstract

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Summary: CCNE1-amplified ovarian cancers (OVCAs) and endometrial cancers (EMCAs) are associated with platinum resistance and poor survival, representing a clinically unmet need. We hypothesized that dysregulated cell-cycle progression promoted by CCNE1 overexpression would lead to increased sensitivity to low-dose WEE1 inhibition and ataxia telangiectasia and Rad3-related (ATR) inhibition (WEE1i-ATRi), thereby optimizing efficacy and tolerability. The addition of ATRi to WEE1i is required to block feedback activation of ATR signaling mediated by WEE1i. Low-dose WEE1i-ATRi synergistically decreases viability and colony formation and increases replication fork collapse and double-strand breaks (DSBs) in a CCNE1 copy number (CN)-dependent manner. Only upon CCNE1 induction does WEE1i perturb DNA synthesis at S-phase entry, and addition of ATRi increases DSBs during DNA synthesis. Inherent resistance to WEE1i is overcome with WEE1i-ATRi, with notable durable tumor regressions and improved survival in patient-derived xenograft (PDX) models in a CCNE1-level-dependent manner. These studies demonstrate that CCNE1 CN is a clinically tractable biomarker predicting responsiveness to low-dose WEE1i-ATRi for aggressive subsets of OVCAs/EMCAs.

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