Imlunestrant Is an Oral, Brain-Penetrant Selective Estrogen Receptor Degrader with Potent Antitumor Activity in ESR1 Wild-Type and Mutant Breast Cancer

Article

作者: Shen, Weihua ; Kindler, Lisa ; de Dios, Alfonso ; Dowless, Michele S. ; Garcia-Tapia, David ; Ortiz Ruiz, Maria Jesus ; Bastian, Jolie ; Rodrik-Outmezguine, Vanessa ; Rodriguez Cruz, Vivian ; Yu, Chunping ; Castanares, Mark A. ; Klippel, Anke ; Bhagwat, Shripad V. ; Marugán, Carlos ; Mattioni, Brian ; Fei, Dongling ; Vandekopple, Matthew ; Cohen, Jeff D. ; Ismail-Khan, Roohi ; Gong, Xueqian ; Stephens, Jennifer R. ; Peng, Sheng-Bin ; Capen, Andrew ; Bacchion, Francesca ; Puca, Loredana ; Zhao, Baohui ; Lallena, María Jose ; Yuen, Eunice ; Manro, Jason R. ; Baker, Thomas K. ; Pulliam, Nicholas ; Mur, Cecilia ; Huber, Lysiane

Abstract:

Targeting of the estrogen receptor (ER) by antiestrogens is the standard of care for patients with ER+ HER2− advanced/metastatic breast cancer. Although antiestrogens that degrade ERα (fulvestrant) or block estrogen production (aromatase inhibitors) have improved patient outcomes, clinically important challenges remain related to drug administration, limited bioavailability, lack of brain exposure, and acquired resistance due to ESR1 mutations. These limitations indicate a need for more robust ER-targeted therapies. Here, we discovered and characterized imlunestrant, a next-generation potent, brain-penetrant oral selective ER degrader. Imlunestrant degraded ERα and decreased ERα-mediated gene expression both in vitro and in vivo. Cell proliferation and tumor growth in ESR1 wild-type (WT) and mutant models were significantly inhibited by imlunestrant. Combining imlunestrant with abemaciclib (CDK4/6 inhibitor), alpelisib (PI3K inhibitor), or everolimus (mTOR inhibitor) further enhanced tumor growth inhibition, regardless of ESR1 mutational status. In an ER+ breast cancer intracranial tumor model, imlunestrant prolonged survival compared with vehicle or alternative selective ER degrader therapies. Together, these findings support the potential of imlunestrant to degrade ERα and suppress the growth of ESR1-WT and mutant breast cancer, including brain metastatic tumors.Significance: Imlunestrant, a next-generation, brain-penetrant oral ERα degrader, displays potent activity in ESR1 wild-type and mutant breast cancer, enhances combination activity with standard-of-care agents, and inhibits growth of ER+ intracranial tumors.

2024-09-27·Science Advances

Estrogen signaling suppresses tumor-associated tissue eosinophilia to promote breast tumor growth

Article

作者: Dent, Susan ; Wardell, Suzanne E. ; Roper, Jatin ; Chakraborty, Binita ; Juras, Patrick K. ; Chang, Ching-Yi ; Mirminachi, Babak ; Chakraborty, Prabuddha ; Goyal, Aditi ; McDonnell, Donald P. ; Lim, Felicia ; Crowder, Daniel ; Artham, Sandeep ; Strawser, Corinne H. ; Liu, Siyao ; Byemerwa, Jovita ; Racioppi, Alessandro ; Perou, Charles M. ; Newlin, Madeline

Estrogens regulate eosinophilia in asthma and other inflammatory diseases. Further, peripheral eosinophilia and tumor-associated tissue eosinophilia (TATE) predicts a better response to immune checkpoint blockade (ICB) in breast cancer. However, how and if estrogens affect eosinophil biology in tumors and how this influences ICB efficacy has not been determined. Here, we report that estrogens decrease the number of peripheral eosinophils and TATE, and this contributes to increased tumor growth in validated murine models of breast cancer and melanoma. Moreover, estrogen signaling in healthy female mice also suppressed peripheral eosinophil prevalence by decreasing the proliferation and survival of maturing eosinophils. Inhibiting estrogen receptor (ER) signaling decreased tumor growth in an eosinophil-dependent manner. Further, the efficacy of ICBs was increased when administered in combination with anti-estrogens. These findings highlight the importance of ER signaling as a regulator of eosinophil biology and TATE and highlight the potential near-term clinical application of ER modulators to increase ICB efficacy in multiple tumor types.

2023-08-07·EMBO molecular medicine

Nuclear PRMT5 is a biomarker of sensitivity to tamoxifen in ERα⁺ breast cancer

Article

作者: Lasset, Christine ; Jacquemetton, Julien ; Le Romancer, Muriel ; Surmielova, Ausra ; Trédan, Olivier ; Ha Pham, Thuy ; Poulard, Coralie ; Marangoni, Elisabetta ; Kassem, Loay ; Treilleux, Isabelle ; Reboulet, Jonathan ; Mery, Benoite ; Drouet, Youenn

Abstract:

Endocrine therapies targeting estrogen signaling, such as tamoxifen, have significantly improved management of estrogen receptor alpha (ERα)‐positive breast cancers. However, their efficacy is limited by intrinsic and acquired resistance to treatment, and there is currently no predictive marker of response to these anti‐estrogens to guide treatment decision. Here, using two independent cohorts of breast cancer patients, we identified nuclear PRMT5 expression as an independent predictive marker of sensitivity to tamoxifen. Mechanistically, we discovered that tamoxifen stimulates ERα methylation by PRMT5, a key event for its binding to corepressors such as SMRT and HDAC1, participating in the inhibition of the transcriptional activity of ERα. Although PRMT5 is mainly localized in the cytoplasm of tumor cells, our analyses show that tamoxifen triggers its nuclear translocation in tamoxifen‐sensitive tumors but not in resistant ones. Hence, we unveil a biomarker of sensitivity to tamoxifen in ERα‐positive breast tumors that could be used to enhance the response of breast cancer patients to endocrine therapy, by fostering its nuclear expression.

100 项与 Anti-Estrogens(BioNumerik) 相关的药物交易

登录后查看更多信息