TY - JOUR
T1 - Microenvironmental networks promote tumor heterogeneity and enrich for metastatic cancer stem-like cells in Luminal-A breast tumor cells
AU - Weitzenfeld, Polina
AU - Meshel, Tsipi
AU - Ben-Baruch, Adit
PY - 2016
Y1 - 2016
N2 - The roles of the tumor microenvironment (TME) in generating intra-tumoral diversity within each specific breast cancer subtype are far from being fully elucidated. In this study, we exposed Luminal-A breast cancer cells in culture to combined "TME Stimulation", representing three typical arms of the breast TME: hormonal (estrogen), inflammatory (tumor necrosis factor a) and growth-promoting (epidermal growth factor). In addition to enriching the tumor cell population with CD44+/β1+ cells (as we previously published), TME Stimulation selected for CD44+/CD24low/- stem-like cells, that were further enriched by doxorubicin treatment and demonstrated high plasticity in vitro and in vivo. Knock-down experiments revealed that CD44 and Zeb1 regulated CD24 and β1 expression and controlled differently cell spreading and formation of cellular protrusions. TME-enriched CD44+/CD24low/- stem-like cells promoted dissemination to bones and lymph nodes, whereas CD44+/β1+ cells had a low metastatic potential. Mixed co-injections of TME-enriched CD44+/CD24low/- and CD44+/β1+ sub-populations generated metastases populated mostly by CD44+/CD24low/--derived cells. Thus, combined activities of several TME factors select for CD44+/CD24low/- stem-like cells that dictate the metastatic phenotype of Luminal-A breast tumor cells, suggesting that therapeutic modalities targeting the TME could be introduced as a potential strategy of inhibiting the detrimental stem-like sub-population in this disease subtype.
AB - The roles of the tumor microenvironment (TME) in generating intra-tumoral diversity within each specific breast cancer subtype are far from being fully elucidated. In this study, we exposed Luminal-A breast cancer cells in culture to combined "TME Stimulation", representing three typical arms of the breast TME: hormonal (estrogen), inflammatory (tumor necrosis factor a) and growth-promoting (epidermal growth factor). In addition to enriching the tumor cell population with CD44+/β1+ cells (as we previously published), TME Stimulation selected for CD44+/CD24low/- stem-like cells, that were further enriched by doxorubicin treatment and demonstrated high plasticity in vitro and in vivo. Knock-down experiments revealed that CD44 and Zeb1 regulated CD24 and β1 expression and controlled differently cell spreading and formation of cellular protrusions. TME-enriched CD44+/CD24low/- stem-like cells promoted dissemination to bones and lymph nodes, whereas CD44+/β1+ cells had a low metastatic potential. Mixed co-injections of TME-enriched CD44+/CD24low/- and CD44+/β1+ sub-populations generated metastases populated mostly by CD44+/CD24low/--derived cells. Thus, combined activities of several TME factors select for CD44+/CD24low/- stem-like cells that dictate the metastatic phenotype of Luminal-A breast tumor cells, suggesting that therapeutic modalities targeting the TME could be introduced as a potential strategy of inhibiting the detrimental stem-like sub-population in this disease subtype.
KW - Adhesion molecules
KW - Cancer stem cells
KW - Luminal-A breast cancer
KW - Metastasis
KW - Tumor microenvironment
UR - http://www.scopus.com/inward/record.url?scp=85000925855&partnerID=8YFLogxK
U2 - 10.18632/oncotarget.13213
DO - 10.18632/oncotarget.13213
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C2 - 27835603
AN - SCOPUS:85000925855
SN - 1949-2553
VL - 7
SP - 81123
EP - 81143
JO - Oncotarget
JF - Oncotarget
IS - 49
ER -