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Clinical Trial
. 2025 Oct;31(10):3464-3474.
doi: 10.1038/s41591-025-03877-3. Epub 2025 Sep 2.

Targeting dormant tumor cells to prevent recurrent breast cancer: a randomized phase 2 trial

Angela DeMichele  1   2   3 Amy S Clark  4   5   6 Emily Shea  6   7 Lauren J Bayne  4   6 Christopher J Sterner  6   7 Killian Rohn  4   6 Samantha Dwyer  7 Tien-Chi Pan  6   7 Isoris Nivar  4 Yan Chen  6   7 Paul Wileyto  8 Lindsay R Berry  9 Shannon Deluca  4   6 Jessica Savage  5   6 Igor Makhlin  4   5   6 Dhruv K Pant  6   7 Heather Martin  6   7 Adetutu Egunsola  6   7 Nathan Mears  6   7 Brooke L Goodspeed  4   6 Elizabeth M Chislock  6   7 Jewell Graves  6   7 Jianping Wang  6   7 Natalie Shih  6   10 George K Belka  6   7 Don Berry  9 Anupma Nayak  6   10 Michael Feldman  6   10   11 Lewis A Chodosh  12   13   14   15
Affiliations
Clinical Trial

Targeting dormant tumor cells to prevent recurrent breast cancer: a randomized phase 2 trial

Angela DeMichele et al. Nat Med. 2025 Oct.

Abstract

Breast cancer recurrence may arise from dormant disseminated tumor cells (DTCs) that persist in bone marrow and other sites. Clinically, DTCs are independently associated with breast cancer recurrence and death. Preclinical studies in mouse models identified autophagy and mammalian target of rapamycin (mTOR) signaling as critical mechanisms of tumor dormancy and escape. We subsequently tested the effects of transient versus chronic inhibition of autophagy with chloroquine or hydroxychloroquine (HCQ) and mTOR signaling with rapamycin (RAPA) or everolimus (EVE) on residual tumor cell (RTC) burden and recurrence-free survival (RFS). In mice harboring dormant RTCs, inhibition of mTOR alone or in combination with autophagy inhibition decreased RTC burden and improved RFS in a duration-dependent manner. RTC number was strongly and inversely correlated with RFS, suggesting that RTC reduction mediated an improvement in RFS. To translate findings clinically, we performed a randomized phase 2 trial (CLEVER) of HCQ, EVE or their combination in breast cancer survivors within 5 years of diagnosis who had detectable DTCs on bone marrow aspirate. Primary endpoints were feasibility and safety; secondary endpoints included DTC reduction/clearance and RFS. In total, 51 DTC+ patients initiated HCQ (n = 15), EVE (n = 15) or HCQ + EVE (n = 21). Treatment was feasible and tolerable; only one patient discontinued early for grade 3 toxicity. At 42 months median follow-up, landmark 3-year RFS for HCQ, EVE and HCQ + EVE was 91.7%, 92.9% and 100%, respectively, and was greater in those who cleared DTCs versus those who did not (hazard ratio (HR) = 0.21 (95% confidence interval 0.01-3.4)). Posterior probabilities were 98-99.9% that three cycles of HCQ, EVE or HCQ + EVE led to reduced or undetectable DTCs compared to observation alone, with estimated DTC reductions of 80%, 78% and 87%, respectively. These findings provide proof-of-concept that targeting dormant RTCs with HCQ, EVE or their combination in breast cancer survivors or mouse models depletes minimal residual disease, warranting a definitive human randomized controlled trial. ClinicalTrials.gov registration: NCT03032406 .

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Conflict of interest statement

Competing interests: A.D. has received institutional research funding from Novartis, Genentech, Pfizer and NeoGenomics. L.A.C. has received institutional research funding from Novartis, AstraZeneca and Merck Research Laboratories, and has served as an expert consultant to Teva Pharmaceuticals, Eisai, Sanofi, Takeda Pharmaceuticals, Eli Lilly, Whittaker, Clark and Daniels, Wyeth, Imerys, Becton Dickinson, Sterigenics and the U.S. Department of Justice in litigation. The other authors declare no competing interests.

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