Rapid Induction of the Unfolded Protein Response and Apoptosis by Estrogen Mimic TTC-352 for the Treatment of Endocrine-Resistant Breast Cancer

Overview

Journal Mol Cancer Ther

Date 2020 Nov 12

PMID 33177154

Citations 6

Authors

Balkees Abderrahman

Philipp Y Maximov

Ramona F Curpan

Sean W Fanning

Jay S Hanspal

Ping Fan

Charles E Foulds

Yue Chen

Anna Malovannaya

Antrix Jain

Rui Xiong

Geoffrey L Greene

Debra A Tonetti

Gregory R J Thatcher

V Craig Jordan

Affiliations

Soon will be listed here.

Abstract

Patients with long-term estrogen-deprived breast cancer, after resistance to tamoxifen or aromatase inhibitors develops, can experience tumor regression when treated with estrogens. Estrogen's antitumor effect is attributed to apoptosis via the estrogen receptor (ER). Estrogen treatment can have unpleasant gynecologic and nongynecologic adverse events; thus, the development of safer estrogenic agents remains a clinical priority. Here, we study synthetic selective estrogen mimics (SEM) BMI-135 and TTC-352, and the naturally occurring estrogen estetrol (E), which are proposed as safer estrogenic agents compared with 17β-estradiol (E), for the treatment of endocrine-resistant breast cancer. TTC-352 and E are being evaluated in breast cancer clinical trials. Cell viability assays, real-time PCR, immunoblotting, DNA pulldowns, mass spectrometry, X-ray crystallography, docking and molecular dynamic simulations, live cell imaging, and Annexin V staining were conducted in 11 biologically different breast cancer models. Results were compared with the potent full agonist E, less potent full agonist E, the benchmark partial agonist triphenylethylene bisphenol (BPTPE), and antagonists 4-hydroxytamoxifen and endoxifen. We report ERα's regulation and coregulators' binding profiles with SEMs and E We describe TTC-352's pharmacology as a weak full agonist and antitumor molecular mechanisms. This study highlights TTC-352's benzothiophene scaffold that yields an H-bond with Glu353, which allows Asp351-to-helix 12 (H12) interaction, sealing ERα's ligand-binding domain, recruiting E-enriched coactivators, and triggering rapid ERα-induced unfolded protein response (UPR) and apoptosis, as the basis of its anticancer properties. BPTPE's phenolic OH yields an H-Bond with Thr347, which disrupts Asp351-to-H12 interaction, delaying UPR and apoptosis and increasing clonal evolution risk.

Citing Articles

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