Albane Courjaud scite author profile

Activating KRAS mutations are major oncogenic drivers in multiple tumor types. Synthetic lethal screens have previously been used to identify targets critical for the survival of KRAS mutant cells, but their application to drug discovery has proven challenging, possibly due in part to a failure of monolayer cultures to model tumor biology. Here, we report the results of a high-throughput synthetic lethal screen for small molecules that selectively inhibit the growth of KRAS mutant cell lines in soft agar. Chemoproteomic profiling identifies the target of the most KRAS-selective chemical series as dihydroorotate dehydrogenase (DHODH). DHODH inhibition is shown to perturb multiple metabolic pathways. In vivo preclinical studies demonstrate strong antitumor activity upon DHODH inhibition in a pancreatic tumor xenograft model.

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Discovery of 6-(2,4-Dichlorophenyl)-5-[4-[(3S)-1-(3-fluoropropyl)pyrrolidin-3-yl]oxyphenyl]-8,9-dihydro-7H-benzo[7]annulene-2-carboxylic acid (SAR439859), a Potent and Selective Estrogen Receptor Degrader (SERD) for the Treatment of Estrogen-Receptor-Positive Breast Cancer

El-Ahmad¹,

Tabart²,

Halley³

et al. 2019

J. Med. Chem.

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More than 75% of breast cancers are estrogen receptor alpha (ERα) positive (ER+), and resistance to current hormone therapies occurs in one-third of ER+ patients. Tumor resistance is still ERα-dependent, but mutations usually confer constitutive activation to the hormone receptor, rendering ERα modulator drugs such as tamoxifen and aromatase inhibitors ineffective. Fulvestrant is a potent selective estrogen receptor degrader (SERD), which degrades the ERα receptor in drug-resistant tumors and has been approved for the treatment of hormone-receptor-positive metastatic breast cancer following antiestrogen therapy. However, fulvestrant shows poor pharmacokinetic properties in human, low solubility, weak permeation, and high metabolism, limiting its administration to inconvenient intramuscular injections. This Drug Annotation describes the identification and optimization of a new series of potent orally available SERDs, which led to the discovery of 6-(2,4-dichlorophenyl)-5-[4-[(3S)-1-(3-fluoropropyl)pyrrolidin-3-yl]oxyphenyl]-8,9-dihydro-7H-benzo[7]annulene-2-carboxylic acid (43d), showing promising antitumor activity in breast cancer mice xenograft models and whose properties warranted clinical evaluation.

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SAR439859, a Novel Selective Estrogen Receptor Degrader (SERD), Demonstrates Effective and Broad Antitumor Activity in Wild-Type and Mutant ER-Positive Breast Cancer Models

Shomali

Cheng

Sun

et al. 2021

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Primary treatment for estrogen receptor-positive (ER+) breast cancer is endocrine therapy. However, substantial evidence indicates a continued role for ER signaling in tumor progression. Selective estrogen receptor degraders (SERD), such as fulvestrant, induce effective ER signaling inhibition, although clinical studies with fulvestrant report insufficient blockade of ER signaling, possibly due to suboptimal pharmaceutical properties. Furthermore, activating mutations in the ER have emerged as a resistance mechanism to current endocrine therapies. New oral SERDs with improved drug properties are under clinical investigation, but the biological profile that could translate to improved therapeutic benefit remains unclear. Here, we describe the discovery of SAR439859, a novel, orally bioavailable SERD with potent antagonist and degradation activities against both wild-type and mutant Y537S ER. Driven by its fluoropropyl pyrrolidinyl side chain, SAR439859 has demonstrated broader and superior ER antagonist and degrader activities across a large panel of ER+ cells, compared with other SERDs characterized by a cinnamic acid side chain, including improved inhibition of ER signaling and tumor cell growth. Similarly, in vivo treatment with SAR439859 demonstrated significant tumor regression in ER+ breast cancer models, including MCF7-ESR1 wild-type and mutant-Y537S mouse tumors, and HCI013, a patient-derived tamoxifen-resistant xenograft tumor. These findings indicate that SAR439859 may provide therapeutic benefit to patients with ER+ breast cancer, including those who have resistance to endocrine therapy with both wild-type and mutant ER.

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Abstract 5775: Identification of SAR439859, an orally bioavailable selective estrogen receptor degrader (SERD) that has strong anti-tumor activity in wild-type and mutant ER+ breast cancer models

Shomali¹,

El-Ahmad²,

Halley³

et al. 2018

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Nearly 70% or more of newly diagnosed cases of breast cancer (BC) are estrogen receptor positive (ER+) where endocrine therapy is a primary treatment. However, substantial evidence describes a continued role of ER signaling in tumor progression, where approximately 40% of patients on endocrine therapy develop resistance that include mutations in the ER that drive a constitutively active receptor. Fulvestrant, an estrogen receptor degrader, is effective at shutting down ER signaling. However, fulvestrant efficacy studies report insufficient blockade of ER signaling in patients that may be a consequence of poor pharmaceutical properties. Here we describe the discovery of SAR439859, a novel, orally bioavailable SERD with potent antagonist and degradative properties against ER both in vitro and in vivo. SAR439859 has robust inhibition of ER signaling activity in multiple ER+ breast cancer cell lines including tamoxifen resistant lines harboring ER mutations. Across a large panel of ER+ cells, SAR439859 demonstrated broad and superior ER degradation activity as compared to other SERDs including improved inhibition of ER signaling and inhibition of cell growth. Similarly, in vivo treatment with SAR439859 demonstrated significant tumor regression in ER+ BC models including MCF7-ESR1 mutant-Y537S model and endocrine therapy resistant patient-derived xenograft tumor transplantation. Collectively, these results showed that SAR439859 is an oral, nonsteroidal, selective estrogen receptor antagonist and degrader that could provide therapeutic benefit to ER+ breast cancer patients. SAR439859 is currently being evaluated in a phase I clinical trial. Citation Format: Maysoun Shomali, Youssef El-Ahmad, Frank Halley, Jane Cheng, Michael Weinstein, Muchun Wang, Fangxian Sun, Natalia Malkova, Mikhail Levit, Malvika Koundinya, Zhuyan Gou, Andrew Hebert, Jessica McManus, Dietmar Hoffman, Hui Cao, Joonil Jung, Jack Pollard, Sylvie Vincent, Timothy Ackerson, Francisco Adrian, Chris Winter, Victoria Richon, Hong Chen, Karl Hsu, Joanne Lager, Albane Courjaud, Rosalia Arrebola, Laurent Besret, Pierre-Yves Abecassis, Laurent Schio, Gary McCort, Michel Tabart, Victor Certal, Fabienne Thompson, Bruno Filoche-Rommé, Laurent Debussche, Patrick Cohen, Carlos Garcia-Echeverria, Monsif Bouaboula. Identification of SAR439859, an orally bioavailable selective estrogen receptor degrader (SERD) that has strong anti-tumor activity in wild-type and mutant ER+ breast cancer models [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5775.

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Abstract 2243: Clonogenic 3D high throughput screening in mutant KRAS dependent cancer cells - a chemogenomic approach.

Koundinya

Sudhalter

Courjaud

et al. 2013

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Activating KRAS mutations are oncogenic and prevalent in multiple tumor types, being found in as high as 90% of pancreatic carcinomas and 50% of colorectal carcinomas. In spite of its attractiveness for therapeutic intervention to date no KRAS-targeted drug therapies have been approved. Most of the reported mutant KRAS directed cellular screening efforts utilize 2-dimensional assays. Because mutant KRAS driven tumor cell lines are much more strongly dependent on activated K-Ras signaling for anchorage independent growth relative to growth when anchored to plastic, we report herein a screening strategy that leverages a 3-dimensional clonogenic growth assay in soft agar. We have performed a multi-cell line parallel phenotypic high throughput screen with our proprietary compound collection to identify pathways, targets and chemical matter with selective anti-tumor activity in mutant KRAS dependent cell lines - a Synthetic Lethal approach. Our strategy has led to the identification of several chemical classes that inhibit the growth of multiple mutant KRAS cell lines of pancreatic and colorectal carcinoma origin, while sparing multiple wild-type KRAS cancer cell lines. Studies to elucidate their molecular mechanisms of action are underway. Citation Format: Malvika Koundinya, Judith Sudhalter, Albane Courjaud, Bruno Lionne, Gaetan Touyer, Luc Bonnet, Isabelle Menguy, Isabelle Schreiber, Christelle Perrault, Stephanie Vougier, Brigitte Benhamou, Daniel Simard, Maria Paola Castaldi, Ronald Tomlinson, Stephan Reiling, Hui Cao, David Harper, Monsif Bouaboula, Jack Pollard, Claudine Grepin, Carlos Garcia-Echeverria, Francisco Adrian, Ivan Cornella-Taracido, Rosalia Arrebola, Aaron J. Morris. Clonogenic 3D high throughput screening in mutant KRAS dependent cancer cells - a chemogenomic approach. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 2243. doi:10.1158/1538-7445.AM2013-2243

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Albane Courjaud

Dependence on the Pyrimidine Biosynthetic Enzyme DHODH Is a Synthetic Lethal Vulnerability in Mutant KRAS-Driven Cancers

Discovery of 6-(2,4-Dichlorophenyl)-5-[4-[(3S)-1-(3-fluoropropyl)pyrrolidin-3-yl]oxyphenyl]-8,9-dihydro-7H-benzo[7]annulene-2-carboxylic acid (SAR439859), a Potent and Selective Estrogen Receptor Degrader (SERD) for the Treatment of Estrogen-Receptor-Positive Breast Cancer

SAR439859, a Novel Selective Estrogen Receptor Degrader (SERD), Demonstrates Effective and Broad Antitumor Activity in Wild-Type and Mutant ER-Positive Breast Cancer Models

Abstract 5775: Identification of SAR439859, an orally bioavailable selective estrogen receptor degrader (SERD) that has strong anti-tumor activity in wild-type and mutant ER+ breast cancer models

Abstract 2243: Clonogenic 3D high throughput screening in mutant KRAS dependent cancer cells - a chemogenomic approach.

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