Cargando…

Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer

Drugs that inhibit estrogen receptor-α (ER) activity have been highly successful in treating and reducing breast cancer progression in ER-positive disease. However, resistance to these therapies presents a major clinical problem. Recent genetic studies have shown that mutations in the ER gene are fo...

Descripción completa

Detalles Bibliográficos
Autores principales: Harrod, A, Fulton, J, Nguyen, V T M, Periyasamy, M, Ramos-Garcia, L, Lai, C-F, Metodieva, G, de Giorgio, A, Williams, R L, Santos, D B, Gomez, P J, Lin, M-L, Metodiev, M V, Stebbing, J, Castellano, L, Magnani, L, Coombes, R C, Buluwela, L, Ali, S
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2017
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5245767/
https://www.ncbi.nlm.nih.gov/pubmed/27748765
http://dx.doi.org/10.1038/onc.2016.382
_version_ 1782496878224474112
author Harrod, A
Fulton, J
Nguyen, V T M
Periyasamy, M
Ramos-Garcia, L
Lai, C-F
Metodieva, G
de Giorgio, A
Williams, R L
Santos, D B
Gomez, P J
Lin, M-L
Metodiev, M V
Stebbing, J
Castellano, L
Magnani, L
Coombes, R C
Buluwela, L
Ali, S
author_facet Harrod, A
Fulton, J
Nguyen, V T M
Periyasamy, M
Ramos-Garcia, L
Lai, C-F
Metodieva, G
de Giorgio, A
Williams, R L
Santos, D B
Gomez, P J
Lin, M-L
Metodiev, M V
Stebbing, J
Castellano, L
Magnani, L
Coombes, R C
Buluwela, L
Ali, S
author_sort Harrod, A
collection PubMed
description Drugs that inhibit estrogen receptor-α (ER) activity have been highly successful in treating and reducing breast cancer progression in ER-positive disease. However, resistance to these therapies presents a major clinical problem. Recent genetic studies have shown that mutations in the ER gene are found in >20% of tumours that progress on endocrine therapies. Remarkably, the great majority of these mutations localize to just a few amino acids within or near the critical helix 12 region of the ER hormone binding domain, where they are likely to be single allele mutations. Understanding how these mutations impact on ER function is a prerequisite for identifying methods to treat breast cancer patients featuring such mutations. Towards this end, we used CRISPR-Cas9 genome editing to make a single allele knock-in of the most commonly mutated amino acid residue, tyrosine 537, in the estrogen-responsive MCF7 breast cancer cell line. Genomic analyses using RNA-seq and ER ChIP-seq demonstrated that the Y537S mutation promotes constitutive ER activity globally, resulting in estrogen-independent growth. MCF7-Y537S cells were resistant to the anti-estrogen tamoxifen and fulvestrant. Further, we show that the basal transcription factor TFIIH is constitutively recruited by ER-Y537S, resulting in ligand-independent phosphorylation of Serine 118 (Ser118) by the TFIIH kinase, cyclin-dependent kinase (CDK)7. The CDK7 inhibitor, THZ1 prevented Ser118 phosphorylation and inhibited growth of MCF7-Y537S cells. These studies confirm the functional importance of ER mutations in endocrine resistance, demonstrate the utility of knock-in mutational models for investigating alternative therapeutic approaches and highlight CDK7 inhibition as a potential therapy for endocrine-resistant breast cancer mediated by ER mutations.
format Online
Article
Text
id pubmed-5245767
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Nature Publishing Group
record_format MEDLINE/PubMed
spelling pubmed-52457672017-04-25 Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer Harrod, A Fulton, J Nguyen, V T M Periyasamy, M Ramos-Garcia, L Lai, C-F Metodieva, G de Giorgio, A Williams, R L Santos, D B Gomez, P J Lin, M-L Metodiev, M V Stebbing, J Castellano, L Magnani, L Coombes, R C Buluwela, L Ali, S Oncogene Original Article Drugs that inhibit estrogen receptor-α (ER) activity have been highly successful in treating and reducing breast cancer progression in ER-positive disease. However, resistance to these therapies presents a major clinical problem. Recent genetic studies have shown that mutations in the ER gene are found in >20% of tumours that progress on endocrine therapies. Remarkably, the great majority of these mutations localize to just a few amino acids within or near the critical helix 12 region of the ER hormone binding domain, where they are likely to be single allele mutations. Understanding how these mutations impact on ER function is a prerequisite for identifying methods to treat breast cancer patients featuring such mutations. Towards this end, we used CRISPR-Cas9 genome editing to make a single allele knock-in of the most commonly mutated amino acid residue, tyrosine 537, in the estrogen-responsive MCF7 breast cancer cell line. Genomic analyses using RNA-seq and ER ChIP-seq demonstrated that the Y537S mutation promotes constitutive ER activity globally, resulting in estrogen-independent growth. MCF7-Y537S cells were resistant to the anti-estrogen tamoxifen and fulvestrant. Further, we show that the basal transcription factor TFIIH is constitutively recruited by ER-Y537S, resulting in ligand-independent phosphorylation of Serine 118 (Ser118) by the TFIIH kinase, cyclin-dependent kinase (CDK)7. The CDK7 inhibitor, THZ1 prevented Ser118 phosphorylation and inhibited growth of MCF7-Y537S cells. These studies confirm the functional importance of ER mutations in endocrine resistance, demonstrate the utility of knock-in mutational models for investigating alternative therapeutic approaches and highlight CDK7 inhibition as a potential therapy for endocrine-resistant breast cancer mediated by ER mutations. Nature Publishing Group 2017-04-20 2016-10-17 /pmc/articles/PMC5245767/ /pubmed/27748765 http://dx.doi.org/10.1038/onc.2016.382 Text en Copyright © 2017 The Author(s) http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article's Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/
spellingShingle Original Article
Harrod, A
Fulton, J
Nguyen, V T M
Periyasamy, M
Ramos-Garcia, L
Lai, C-F
Metodieva, G
de Giorgio, A
Williams, R L
Santos, D B
Gomez, P J
Lin, M-L
Metodiev, M V
Stebbing, J
Castellano, L
Magnani, L
Coombes, R C
Buluwela, L
Ali, S
Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer
title Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer
title_full Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer
title_fullStr Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer
title_full_unstemmed Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer
title_short Genomic modelling of the ESR1 Y537S mutation for evaluating function and new therapeutic approaches for metastatic breast cancer
title_sort genomic modelling of the esr1 y537s mutation for evaluating function and new therapeutic approaches for metastatic breast cancer
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5245767/
https://www.ncbi.nlm.nih.gov/pubmed/27748765
http://dx.doi.org/10.1038/onc.2016.382
work_keys_str_mv AT harroda genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT fultonj genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT nguyenvtm genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT periyasamym genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT ramosgarcial genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT laicf genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT metodievag genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT degiorgioa genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT williamsrl genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT santosdb genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT gomezpj genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT linml genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT metodievmv genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT stebbingj genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT castellanol genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT magnanil genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT coombesrc genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT buluwelal genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer
AT alis genomicmodellingoftheesr1y537smutationforevaluatingfunctionandnewtherapeuticapproachesformetastaticbreastcancer