Pharmacogenomics of aromatase inhibitors in postmenopausal breast cancer and additional mechanisms of anastrozole action
Junmei Cairns, James N. Ingle, Tanda M. Dudenkov, Krishna R. Kalari, Erin E. Carlson, Jie Na, Aman U. Buzdar, Mark E. Robson, Matthew J. Ellis, Paul E. Goss, Lois E. Shepherd, Barbara Goodnature, Matthew P. Goetz, Richard M. Weinshilboum, Hu Li, Mehrab Ghanat Bari, Liewei Wang
Junmei Cairns, James N. Ingle, Tanda M. Dudenkov, Krishna R. Kalari, Erin E. Carlson, Jie Na, Aman U. Buzdar, Mark E. Robson, Matthew J. Ellis, Paul E. Goss, Lois E. Shepherd, Barbara Goodnature, Matthew P. Goetz, Richard M. Weinshilboum, Hu Li, Mehrab Ghanat Bari, Liewei Wang
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Research Article Oncology Therapeutics

Pharmacogenomics of aromatase inhibitors in postmenopausal breast cancer and additional mechanisms of anastrozole action

Abstract

Aromatase inhibitors (AIs) reduce breast cancer recurrence and prolong survival, but up to 30% of patients exhibit recurrence. Using a genome-wide association study of patients entered on MA.27, a phase III randomized trial of anastrozole versus exemestane, we identified a single nucleotide polymorphism (SNP) in CUB And Sushi multiple domains 1 (CSMD1) associated with breast cancer–free interval, with the variant allele associated with fewer distant recurrences. Mechanistically, CSMD1 regulates CYP19 expression in an SNP- and drug-dependent fashion, and this regulation is different among 3 AIs: anastrozole, exemestane, and letrozole. Overexpression of CSMD1 sensitized AI-resistant cells to anastrozole but not to the other 2 AIs. The SNP in CSMD1 that was associated with increased CSMD1 and CYP19 expression levels increased anastrozole sensitivity, but not letrozole or exemestane sensitivity. Anastrozole degrades estrogen receptor α (ERα), especially in the presence of estradiol (E2). ER+ breast cancer organoids and AI- or fulvestrant-resistant breast cancer cells were more sensitive to anastrozole plus E2 than to AI alone. Our findings suggest that the CSMD1 SNP might help to predict AI response, and anastrozole plus E2 serves as a potential new therapeutic strategy for patients with AI- or fulvestrant-resistant breast cancers.

Authors

Junmei Cairns, James N. Ingle, Tanda M. Dudenkov, Krishna R. Kalari, Erin E. Carlson, Jie Na, Aman U. Buzdar, Mark E. Robson, Matthew J. Ellis, Paul E. Goss, Lois E. Shepherd, Barbara Goodnature, Matthew P. Goetz, Richard M. Weinshilboum, Hu Li, Mehrab Ghanat Bari, Liewei Wang

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Figure 3

Effects of CSMD1 SNP on anastrozole response and mechanisms involved in CSMD1 regulation of CYP19.

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Effects of CSMD1 SNP on anastrozole response and mechanisms involved in ...
(A) CSMD1 SNP-dependent effect on AI responses. w/w, homozygous WT (n = 5); w/v, heterozygous (n = 5); and v/v, homozygous variant LCLs (n = 5). (w/w versus w/v, P < 0.0001; w/w versus v/v, P < 0.0001). (B) Increased anastrozole sensitivity in cells overexpressing CSMD1 (empty vector:Ana [EV:Ana] versus OE CSMD1:Ana, P < 0.0001). Side panel shows mRNA expression in cell lines tested. MCF7AC1 (AC1), AC1-LetR (LetR), and adipocyte. (C) Western blot showing CYP19A1 expression in 3 single clones of CYP19A1-KO T47D cells using CRISPR/Cas9. CYP19A1-KO clone 3 (KO-3) was selected for further experiments. (D) Anastrozole sensitivity after overexpressing CSMD1 in CYP19A1-KO T47D cells (KO) and control cells (Con) shows the reversal of anastrozole sensitivity caused by overexpression of CSMD1. (E) Detection of CSMD1 and SMAD3 interaction using immunoprecipitation, followed by Western blot analysis with indicated antibodies. (F) Increased SMAD3–TGF-βR binding in CSMD1-overexpressed cells. (G) CSMD1 SNP effect on pSMAD3 and CYP19A1 protein levels. A, androstenedione; Ana, anastrozole; Let, letrozole; and Exe, exemestane. Data are represented by ± SEM of 3 independent experiments. **P < 0.01. Two-way ANOVA plus Tukey.