Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer

BACKGROUND: Estrogen receptor-positive (ER-positive) metastatic breast cancer is often intractable due to endocrine therapy resistance. Although ESR1 promoter switching events have been associated with endocrine-therapy resistance, recurrent ESR1 fusion proteins have yet to be identified in advanced...

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Autores principales: Hartmaier, R J, Trabucco, S E, Priedigkeit, N, Chung, J H, Parachoniak, C A, Vanden Borre, P, Morley, S, Rosenzweig, M, Gay, L M, Goldberg, M E, Suh, J, Ali, S M, Ross, J, Leyland-Jones, B, Young, B, Williams, C, Park, B, Tsai, M, Haley, B, Peguero, J, Callahan, R D, Sachelarie, I, Cho, J, Atkinson, J M, Bahreini, A, Nagle, A M, Puhalla, S L, Watters, R J, Erdogan-Yildirim, Z, Cao, L, Oesterreich, S, Mathew, A, Lucas, P C, Davidson, N E, Brufsky, A M, Frampton, G M, Stephens, P J, Chmielecki, J, Lee, A V
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2018
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5913625/
https://www.ncbi.nlm.nih.gov/pubmed/29360925
http://dx.doi.org/10.1093/annonc/mdy025
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author Hartmaier, R J
Trabucco, S E
Priedigkeit, N
Chung, J H
Parachoniak, C A
Vanden Borre, P
Morley, S
Rosenzweig, M
Gay, L M
Goldberg, M E
Suh, J
Ali, S M
Ross, J
Leyland-Jones, B
Young, B
Williams, C
Park, B
Tsai, M
Haley, B
Peguero, J
Callahan, R D
Sachelarie, I
Cho, J
Atkinson, J M
Bahreini, A
Nagle, A M
Puhalla, S L
Watters, R J
Erdogan-Yildirim, Z
Cao, L
Oesterreich, S
Mathew, A
Lucas, P C
Davidson, N E
Brufsky, A M
Frampton, G M
Stephens, P J
Chmielecki, J
Lee, A V
author_facet Hartmaier, R J
Trabucco, S E
Priedigkeit, N
Chung, J H
Parachoniak, C A
Vanden Borre, P
Morley, S
Rosenzweig, M
Gay, L M
Goldberg, M E
Suh, J
Ali, S M
Ross, J
Leyland-Jones, B
Young, B
Williams, C
Park, B
Tsai, M
Haley, B
Peguero, J
Callahan, R D
Sachelarie, I
Cho, J
Atkinson, J M
Bahreini, A
Nagle, A M
Puhalla, S L
Watters, R J
Erdogan-Yildirim, Z
Cao, L
Oesterreich, S
Mathew, A
Lucas, P C
Davidson, N E
Brufsky, A M
Frampton, G M
Stephens, P J
Chmielecki, J
Lee, A V
author_sort Hartmaier, R J
collection PubMed
description BACKGROUND: Estrogen receptor-positive (ER-positive) metastatic breast cancer is often intractable due to endocrine therapy resistance. Although ESR1 promoter switching events have been associated with endocrine-therapy resistance, recurrent ESR1 fusion proteins have yet to be identified in advanced breast cancer. PATIENTS AND METHODS: To identify genomic structural rearrangements (REs) including gene fusions in acquired resistance, we undertook a multimodal sequencing effort in three breast cancer patient cohorts: (i) mate-pair and/or RNAseq in 6 patient-matched primary-metastatic tumors and 51 metastases, (ii) high coverage (>500×) comprehensive genomic profiling of 287–395 cancer-related genes across 9542 solid tumors (5216 from metastatic disease), and (iii) ultra-high coverage (>5000×) genomic profiling of 62 cancer-related genes in 254 ctDNA samples. In addition to traditional gene fusion detection methods (i.e. discordant reads, split reads), ESR1 REs were detected from targeted sequencing data by applying a novel algorithm (copyshift) that identifies major copy number shifts at rearrangement hotspots. RESULTS: We identify 88 ESR1 REs across 83 unique patients with direct confirmation of 9 ESR1 fusion proteins (including 2 via immunoblot). ESR1 REs are highly enriched in ER-positive, metastatic disease and co-occur with known ESR1 missense alterations, suggestive of polyclonal resistance. Importantly, all fusions result from a breakpoint in or near ESR1 intron 6 and therefore lack an intact ligand binding domain (LBD). In vitro characterization of three fusions reveals ligand-independence and hyperactivity dependent upon the 3′ partner gene. Our lower-bound estimate of ESR1 fusions is at least 1% of metastatic solid breast cancers, the prevalence in ctDNA is at least 10× enriched. We postulate this enrichment may represent secondary resistance to more aggressive endocrine therapies applied to patients with ESR1 LBD missense alterations. CONCLUSIONS: Collectively, these data indicate that N-terminal ESR1 fusions involving exons 6–7 are a recurrent driver of endocrine therapy resistance and are impervious to ER-targeted therapies.
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spelling pubmed-59136252018-04-30 Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer Hartmaier, R J Trabucco, S E Priedigkeit, N Chung, J H Parachoniak, C A Vanden Borre, P Morley, S Rosenzweig, M Gay, L M Goldberg, M E Suh, J Ali, S M Ross, J Leyland-Jones, B Young, B Williams, C Park, B Tsai, M Haley, B Peguero, J Callahan, R D Sachelarie, I Cho, J Atkinson, J M Bahreini, A Nagle, A M Puhalla, S L Watters, R J Erdogan-Yildirim, Z Cao, L Oesterreich, S Mathew, A Lucas, P C Davidson, N E Brufsky, A M Frampton, G M Stephens, P J Chmielecki, J Lee, A V Ann Oncol Original Articles BACKGROUND: Estrogen receptor-positive (ER-positive) metastatic breast cancer is often intractable due to endocrine therapy resistance. Although ESR1 promoter switching events have been associated with endocrine-therapy resistance, recurrent ESR1 fusion proteins have yet to be identified in advanced breast cancer. PATIENTS AND METHODS: To identify genomic structural rearrangements (REs) including gene fusions in acquired resistance, we undertook a multimodal sequencing effort in three breast cancer patient cohorts: (i) mate-pair and/or RNAseq in 6 patient-matched primary-metastatic tumors and 51 metastases, (ii) high coverage (>500×) comprehensive genomic profiling of 287–395 cancer-related genes across 9542 solid tumors (5216 from metastatic disease), and (iii) ultra-high coverage (>5000×) genomic profiling of 62 cancer-related genes in 254 ctDNA samples. In addition to traditional gene fusion detection methods (i.e. discordant reads, split reads), ESR1 REs were detected from targeted sequencing data by applying a novel algorithm (copyshift) that identifies major copy number shifts at rearrangement hotspots. RESULTS: We identify 88 ESR1 REs across 83 unique patients with direct confirmation of 9 ESR1 fusion proteins (including 2 via immunoblot). ESR1 REs are highly enriched in ER-positive, metastatic disease and co-occur with known ESR1 missense alterations, suggestive of polyclonal resistance. Importantly, all fusions result from a breakpoint in or near ESR1 intron 6 and therefore lack an intact ligand binding domain (LBD). In vitro characterization of three fusions reveals ligand-independence and hyperactivity dependent upon the 3′ partner gene. Our lower-bound estimate of ESR1 fusions is at least 1% of metastatic solid breast cancers, the prevalence in ctDNA is at least 10× enriched. We postulate this enrichment may represent secondary resistance to more aggressive endocrine therapies applied to patients with ESR1 LBD missense alterations. CONCLUSIONS: Collectively, these data indicate that N-terminal ESR1 fusions involving exons 6–7 are a recurrent driver of endocrine therapy resistance and are impervious to ER-targeted therapies. Oxford University Press 2018-04 2018-01-19 /pmc/articles/PMC5913625/ /pubmed/29360925 http://dx.doi.org/10.1093/annonc/mdy025 Text en © The Author(s) 2018. Published by Oxford University Press on behalf of the European Society for Medical Oncology. http://creativecommons.org/licenses/by-nc/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle Original Articles
Hartmaier, R J
Trabucco, S E
Priedigkeit, N
Chung, J H
Parachoniak, C A
Vanden Borre, P
Morley, S
Rosenzweig, M
Gay, L M
Goldberg, M E
Suh, J
Ali, S M
Ross, J
Leyland-Jones, B
Young, B
Williams, C
Park, B
Tsai, M
Haley, B
Peguero, J
Callahan, R D
Sachelarie, I
Cho, J
Atkinson, J M
Bahreini, A
Nagle, A M
Puhalla, S L
Watters, R J
Erdogan-Yildirim, Z
Cao, L
Oesterreich, S
Mathew, A
Lucas, P C
Davidson, N E
Brufsky, A M
Frampton, G M
Stephens, P J
Chmielecki, J
Lee, A V
Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer
title Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer
title_full Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer
title_fullStr Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer
title_full_unstemmed Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer
title_short Recurrent hyperactive ESR1 fusion proteins in endocrine therapy-resistant breast cancer
title_sort recurrent hyperactive esr1 fusion proteins in endocrine therapy-resistant breast cancer
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5913625/
https://www.ncbi.nlm.nih.gov/pubmed/29360925
http://dx.doi.org/10.1093/annonc/mdy025
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