Imlunestrant a next-generation oral SERD overcomes ESR1 mutant resistance in estrogen receptor–positive breast cancer
Shira Sherman, Zachary M. Sandusky, Douglas Russo, David Zak, Agostina Nardone, Delia Friel, Francisco Hermida-Prado, Capucine Heraud, Genevra Kuziel, Ana Verma, Giorgio Gaglia, Sheheryar Kabraji, Quang-De Nguyen, Sandro Santagata, Sean W. Fanning, Rinath Jeselsohn
Shira Sherman, Zachary M. Sandusky, Douglas Russo, David Zak, Agostina Nardone, Delia Friel, Francisco Hermida-Prado, Capucine Heraud, Genevra Kuziel, Ana Verma, Giorgio Gaglia, Sheheryar Kabraji, Quang-De Nguyen, Sandro Santagata, Sean W. Fanning, Rinath Jeselsohn
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Research Article Cell biology Oncology

Imlunestrant a next-generation oral SERD overcomes ESR1 mutant resistance in estrogen receptor–positive breast cancer

Abstract

Estrogen receptor α (ER) is a critical driver of tumorigenesis and tumor progression in most breast cancers. Endocrine therapies (ET) targeting ER are central to treating hormone receptor–positive breast cancer, but resistance poses a clinical challenge. Some resistance mechanisms, particularly those involving estrogen-independent activity such as the ESR1 mutations, rely on ER signaling, supporting the need for next-generation ET. We investigated the preclinical efficacy of imlunestrant, an oral selective ER degrader, in ER-positive breast cancer preclinical models, including models harboring the Y537S ESR1 mutation, an activating mutation. Imlunestrant demonstrated antagonistic activity and effective degradation of both WT and mutant ER, resulting in cell growth suppression. In vivo, imlunestrant outperformed fulvestrant, leading to tumor regression in a patient-derived xenograft harboring the Y537S ESR1 mutation. Cyclic mutiplexed immunofluorescence and transcriptomic analysis revealed enhanced cell cycle arrest and downregulation of estrogen-responsive genes with imlunestrant treatment. Additionally, a genome-wide CRISPR knock–out screen identified several vulnerabilities that were either persistent or acquired after imlunestrant treatment, providing a rationale for future studies of combination treatments with imlunestrant. Collectively, these results highlight the on-target and selective activity of imlunestrant, which can circumvent resistance engendered by the Y537S ESR1 mutation.

Authors

Shira Sherman, Zachary M. Sandusky, Douglas Russo, David Zak, Agostina Nardone, Delia Friel, Francisco Hermida-Prado, Capucine Heraud, Genevra Kuziel, Ana Verma, Giorgio Gaglia, Sheheryar Kabraji, Quang-De Nguyen, Sandro Santagata, Sean W. Fanning, Rinath Jeselsohn

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Figure 5

Transcriptomic effects of imlunestrant.

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Transcriptomic effects of imlunestrant. (A) Bar plot of the number of di...
(A) Bar plot of the number of differentially expressed genes in ER-Y537S patient-derived xenograft (PDX) treated with fulvestrant (FULV) or imlunestrant (IML) versus vehicle (VEH). Bars are orange for upregulated genes and blue for downregulated genes. Treatment duration for 10 days or 28 days. n ≥ 3 mice per group. (B) Heatmap of the row-centered variance-stabilized counts for the top 500 variable genes in ER-Y537S PDX tumors treated for 10 days with VEH, FULV, or IML. k-medoids clustering on 2 clusters with predominantly IML-downregulated genes and IML-upregulated genes following treatment for 10 days or (C) PDX treatment for 28 days. (D) Dot plot of gene set testing results for the Hallmark gene collection using cameraPR (10% FDR threshold per column). (E) Imlunestrant (green) docked to x-ray crystal structure of the ER LBD harboring the Y537S mutation (PDB: 9bu1). Proximity to residues important for ligation (orange) reveals imlunestrant occupation of ligand binding pocket. (F) Ligand binding pose comparison between imlunestrant and a derivative of the aliphatic SERD ICI 164,384 (PDB: 7r62, a derivative of estradiol that is closely related to fulvestrant) in cyan illustrates side arm conformation in relation to D351 (magenta) and S537 mutation (yellow).