Evidence for phenotypic plasticity in aggressive triple-negative breast cancer: human biology is recapitulated by a novel model system

Breast cancers with a basal-like gene signature are primarily triple-negative, frequently metastatic, and carry a poor prognosis. Basal-like breast cancers are enriched for markers of breast cancer stem cells as well as markers of epithelial-mesenchymal transition (EMT). While EMT is generally thoug...

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Veröffentlicht in:	PloS one 2012-09, Vol.7 (9), p.e45684-e45684
Hauptverfasser:	D'Amato, Nicholas C, Ostrander, Julie H, Bowie, Michelle L, Sistrunk, Christopher, Borowsky, Alexander, Cardiff, Robert D, Bell, Katie, Young, Lawrence J T, Simin, Karl, Bachelder, Robin E, Delrow, Jeff, Dawson, Alyssa, Yee, Lisa D, Mrózek, Krzysztof, Clay, Timothy M, Osada, Takuya, Seewaldt, Victoria L
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Analysis Animals Apoptosis Biology Biomarkers Bone Marrow - pathology Breast cancer Breast Neoplasms - metabolism Breast Neoplasms - pathology Cancer Cancer metastasis Cancer therapies Cell Line, Tumor Cell migration Chemotherapy Culture Media, Serum-Free - pharmacology Cytogenetics Epithelial-Mesenchymal Transition Exons Female Gene expression Gene Expression Profiling Gene Expression Regulation, Neoplastic Genetic aspects Genomics Humans Karyotyping Medical research Medicine Mesenchyme Metastases Metastasis Mice Molecular modelling Morphology Neoplasm Metastasis Neoplasm Transplantation Phenotype Phenotypic plasticity Plastic properties Plasticity Progenitor cells Prognosis Rodents Stem cells Studies Tumor cell lines Tumors Xenografts
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creator	D'Amato, Nicholas C Ostrander, Julie H Bowie, Michelle L Sistrunk, Christopher Borowsky, Alexander Cardiff, Robert D Bell, Katie Young, Lawrence J T Simin, Karl Bachelder, Robin E Delrow, Jeff Dawson, Alyssa Yee, Lisa D Mrózek, Krzysztof Clay, Timothy M Osada, Takuya Seewaldt, Victoria L
description	Breast cancers with a basal-like gene signature are primarily triple-negative, frequently metastatic, and carry a poor prognosis. Basal-like breast cancers are enriched for markers of breast cancer stem cells as well as markers of epithelial-mesenchymal transition (EMT). While EMT is generally thought to be important in the process of metastasis, in vivo evidence of EMT in human disease remains rare. Here we report a novel model of human triple-negative breast cancer, the DKAT cell line, which was isolated from an aggressive, treatment-resistant triple-negative breast cancer that demonstrated morphological and biochemical evidence suggestive of phenotypic plasticity in the patient. The DKAT cell line displays a basal-like phenotype in vitro when cultured in serum-free media, and undergoes phenotypic changes consistent with EMT/MET in response to serum-containing media, a unique property among the breast cancer cell lines we tested. This EMT is marked by increased expression of the transcription factor Zeb1, and Zeb1 is required for the enhanced migratory ability of DKAT cells in the mesenchymal state. DKAT cells also express progenitor-cell markers, and single DKAT cells are able to generate tumorspheres containing both epithelial and mesenchymal cell types. In vivo, as few as ten DKAT cells are capable of forming xenograft tumors which display a range of epithelial and mesenchymal phenotypes. The DKAT model provides a novel model to study the molecular mechanisms regulating phenotypic plasticity and the aggressive biology of triple-negative breast cancers.
doi_str_mv	10.1371/journal.pone.0045684
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Basal-like breast cancers are enriched for markers of breast cancer stem cells as well as markers of epithelial-mesenchymal transition (EMT). While EMT is generally thought to be important in the process of metastasis, in vivo evidence of EMT in human disease remains rare. Here we report a novel model of human triple-negative breast cancer, the DKAT cell line, which was isolated from an aggressive, treatment-resistant triple-negative breast cancer that demonstrated morphological and biochemical evidence suggestive of phenotypic plasticity in the patient. The DKAT cell line displays a basal-like phenotype in vitro when cultured in serum-free media, and undergoes phenotypic changes consistent with EMT/MET in response to serum-containing media, a unique property among the breast cancer cell lines we tested. This EMT is marked by increased expression of the transcription factor Zeb1, and Zeb1 is required for the enhanced migratory ability of DKAT cells in the mesenchymal state. DKAT cells also express progenitor-cell markers, and single DKAT cells are able to generate tumorspheres containing both epithelial and mesenchymal cell types. In vivo, as few as ten DKAT cells are capable of forming xenograft tumors which display a range of epithelial and mesenchymal phenotypes. 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Basal-like breast cancers are enriched for markers of breast cancer stem cells as well as markers of epithelial-mesenchymal transition (EMT). While EMT is generally thought to be important in the process of metastasis, in vivo evidence of EMT in human disease remains rare. Here we report a novel model of human triple-negative breast cancer, the DKAT cell line, which was isolated from an aggressive, treatment-resistant triple-negative breast cancer that demonstrated morphological and biochemical evidence suggestive of phenotypic plasticity in the patient. The DKAT cell line displays a basal-like phenotype in vitro when cultured in serum-free media, and undergoes phenotypic changes consistent with EMT/MET in response to serum-containing media, a unique property among the breast cancer cell lines we tested. This EMT is marked by increased expression of the transcription factor Zeb1, and Zeb1 is required for the enhanced migratory ability of DKAT cells in the mesenchymal state. DKAT cells also express progenitor-cell markers, and single DKAT cells are able to generate tumorspheres containing both epithelial and mesenchymal cell types. In vivo, as few as ten DKAT cells are capable of forming xenograft tumors which display a range of epithelial and mesenchymal phenotypes. 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Julie H</au><au>Bowie, Michelle L</au><au>Sistrunk, Christopher</au><au>Borowsky, Alexander</au><au>Cardiff, Robert D</au><au>Bell, Katie</au><au>Young, Lawrence J T</au><au>Simin, Karl</au><au>Bachelder, Robin E</au><au>Delrow, Jeff</au><au>Dawson, Alyssa</au><au>Yee, Lisa D</au><au>Mrózek, Krzysztof</au><au>Clay, Timothy M</au><au>Osada, Takuya</au><au>Seewaldt, Victoria L</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Evidence for phenotypic plasticity in aggressive triple-negative breast cancer: human biology is recapitulated by a novel model system</atitle><jtitle>PloS one</jtitle><addtitle>PLoS One</addtitle><date>2012-09-25</date><risdate>2012</risdate><volume>7</volume><issue>9</issue><spage>e45684</spage><epage>e45684</epage><pages>e45684-e45684</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Breast cancers with a basal-like gene signature are primarily triple-negative, frequently metastatic, and carry a poor prognosis. Basal-like breast cancers are enriched for markers of breast cancer stem cells as well as markers of epithelial-mesenchymal transition (EMT). While EMT is generally thought to be important in the process of metastasis, in vivo evidence of EMT in human disease remains rare. Here we report a novel model of human triple-negative breast cancer, the DKAT cell line, which was isolated from an aggressive, treatment-resistant triple-negative breast cancer that demonstrated morphological and biochemical evidence suggestive of phenotypic plasticity in the patient. The DKAT cell line displays a basal-like phenotype in vitro when cultured in serum-free media, and undergoes phenotypic changes consistent with EMT/MET in response to serum-containing media, a unique property among the breast cancer cell lines we tested. This EMT is marked by increased expression of the transcription factor Zeb1, and Zeb1 is required for the enhanced migratory ability of DKAT cells in the mesenchymal state. DKAT cells also express progenitor-cell markers, and single DKAT cells are able to generate tumorspheres containing both epithelial and mesenchymal cell types. In vivo, as few as ten DKAT cells are capable of forming xenograft tumors which display a range of epithelial and mesenchymal phenotypes. The DKAT model provides a novel model to study the molecular mechanisms regulating phenotypic plasticity and the aggressive biology of triple-negative breast cancers.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23049838</pmid><doi>10.1371/journal.pone.0045684</doi><tpages>e45684</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adult Analysis Animals Apoptosis Biology Biomarkers Bone Marrow - pathology Breast cancer Breast Neoplasms - metabolism Breast Neoplasms - pathology Cancer Cancer metastasis Cancer therapies Cell Line, Tumor Cell migration Chemotherapy Culture Media, Serum-Free - pharmacology Cytogenetics Epithelial-Mesenchymal Transition Exons Female Gene expression Gene Expression Profiling Gene Expression Regulation, Neoplastic Genetic aspects Genomics Humans Karyotyping Medical research Medicine Mesenchyme Metastases Metastasis Mice Molecular modelling Morphology Neoplasm Metastasis Neoplasm Transplantation Phenotype Phenotypic plasticity Plastic properties Plasticity Progenitor cells Prognosis Rodents Stem cells Studies Tumor cell lines Tumors Xenografts
title	Evidence for phenotypic plasticity in aggressive triple-negative breast cancer: human biology is recapitulated by a novel model system
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