Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity

Breast cancers (BCs) typically express estrogen receptors (ERs) but frequently exhibit de novo or acquired resistance to hormonal therapies. Here, we show that short-term treatment with the anti-estrogens tamoxifen or fulvestrant decrease cell proliferation but increase BC stem cell (BCSC) activity...

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Autores principales: Simões, Bruno M., O’Brien, Ciara S., Eyre, Rachel, Silva, Andreia, Yu, Ling, Sarmiento-Castro, Aida, Alférez, Denis G., Spence, Kath, Santiago-Gómez, Angélica, Chemi, Francesca, Acar, Ahmet, Gandhi, Ashu, Howell, Anthony, Brennan, Keith, Rydén, Lisa, Catalano, Stefania, Andó, Sebastiano, Gee, Julia, Ucar, Ahmet, Sims, Andrew H., Marangoni, Elisabetta, Farnie, Gillian, Landberg, Göran, Howell, Sacha J., Clarke, Robert B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2015
Materias:
Report
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4594158/
https://www.ncbi.nlm.nih.gov/pubmed/26387946
http://dx.doi.org/10.1016/j.celrep.2015.08.050
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author Simões, Bruno M.
O’Brien, Ciara S.
Eyre, Rachel
Silva, Andreia
Yu, Ling
Sarmiento-Castro, Aida
Alférez, Denis G.
Spence, Kath
Santiago-Gómez, Angélica
Chemi, Francesca
Acar, Ahmet
Gandhi, Ashu
Howell, Anthony
Brennan, Keith
Rydén, Lisa
Catalano, Stefania
Andó, Sebastiano
Gee, Julia
Ucar, Ahmet
Sims, Andrew H.
Marangoni, Elisabetta
Farnie, Gillian
Landberg, Göran
Howell, Sacha J.
Clarke, Robert B.
author_facet Simões, Bruno M.
O’Brien, Ciara S.
Eyre, Rachel
Silva, Andreia
Yu, Ling
Sarmiento-Castro, Aida
Alférez, Denis G.
Spence, Kath
Santiago-Gómez, Angélica
Chemi, Francesca
Acar, Ahmet
Gandhi, Ashu
Howell, Anthony
Brennan, Keith
Rydén, Lisa
Catalano, Stefania
Andó, Sebastiano
Gee, Julia
Ucar, Ahmet
Sims, Andrew H.
Marangoni, Elisabetta
Farnie, Gillian
Landberg, Göran
Howell, Sacha J.
Clarke, Robert B.
author_sort Simões, Bruno M.
collection PubMed
description Breast cancers (BCs) typically express estrogen receptors (ERs) but frequently exhibit de novo or acquired resistance to hormonal therapies. Here, we show that short-term treatment with the anti-estrogens tamoxifen or fulvestrant decrease cell proliferation but increase BC stem cell (BCSC) activity through JAG1-NOTCH4 receptor activation both in patient-derived samples and xenograft (PDX) tumors. In support of this mechanism, we demonstrate that high ALDH1 predicts resistance in women treated with tamoxifen and that a NOTCH4/HES/HEY gene signature predicts for a poor response/prognosis in 2 ER+ patient cohorts. Targeting of NOTCH4 reverses the increase in Notch and BCSC activity induced by anti-estrogens. Importantly, in PDX tumors with acquired tamoxifen resistance, NOTCH4 inhibition reduced BCSC activity. Thus, we establish that BCSC and NOTCH4 activities predict both de novo and acquired tamoxifen resistance and that combining endocrine therapy with targeting JAG1-NOTCH4 overcomes resistance in human breast cancers.
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spelling pubmed-45941582015-10-28 Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity Simões, Bruno M. O’Brien, Ciara S. Eyre, Rachel Silva, Andreia Yu, Ling Sarmiento-Castro, Aida Alférez, Denis G. Spence, Kath Santiago-Gómez, Angélica Chemi, Francesca Acar, Ahmet Gandhi, Ashu Howell, Anthony Brennan, Keith Rydén, Lisa Catalano, Stefania Andó, Sebastiano Gee, Julia Ucar, Ahmet Sims, Andrew H. Marangoni, Elisabetta Farnie, Gillian Landberg, Göran Howell, Sacha J. Clarke, Robert B. Cell Rep Report Breast cancers (BCs) typically express estrogen receptors (ERs) but frequently exhibit de novo or acquired resistance to hormonal therapies. Here, we show that short-term treatment with the anti-estrogens tamoxifen or fulvestrant decrease cell proliferation but increase BC stem cell (BCSC) activity through JAG1-NOTCH4 receptor activation both in patient-derived samples and xenograft (PDX) tumors. In support of this mechanism, we demonstrate that high ALDH1 predicts resistance in women treated with tamoxifen and that a NOTCH4/HES/HEY gene signature predicts for a poor response/prognosis in 2 ER+ patient cohorts. Targeting of NOTCH4 reverses the increase in Notch and BCSC activity induced by anti-estrogens. Importantly, in PDX tumors with acquired tamoxifen resistance, NOTCH4 inhibition reduced BCSC activity. Thus, we establish that BCSC and NOTCH4 activities predict both de novo and acquired tamoxifen resistance and that combining endocrine therapy with targeting JAG1-NOTCH4 overcomes resistance in human breast cancers. Cell Press 2015-09-17 /pmc/articles/PMC4594158/ /pubmed/26387946 http://dx.doi.org/10.1016/j.celrep.2015.08.050 Text en © 2015 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Report
Simões, Bruno M.
O’Brien, Ciara S.
Eyre, Rachel
Silva, Andreia
Yu, Ling
Sarmiento-Castro, Aida
Alférez, Denis G.
Spence, Kath
Santiago-Gómez, Angélica
Chemi, Francesca
Acar, Ahmet
Gandhi, Ashu
Howell, Anthony
Brennan, Keith
Rydén, Lisa
Catalano, Stefania
Andó, Sebastiano
Gee, Julia
Ucar, Ahmet
Sims, Andrew H.
Marangoni, Elisabetta
Farnie, Gillian
Landberg, Göran
Howell, Sacha J.
Clarke, Robert B.
Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity
title Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity
title_full Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity
title_fullStr Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity
title_full_unstemmed Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity
title_short Anti-estrogen Resistance in Human Breast Tumors Is Driven by JAG1-NOTCH4-Dependent Cancer Stem Cell Activity
title_sort anti-estrogen resistance in human breast tumors is driven by jag1-notch4-dependent cancer stem cell activity
topic Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4594158/
https://www.ncbi.nlm.nih.gov/pubmed/26387946
http://dx.doi.org/10.1016/j.celrep.2015.08.050
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