Author:
Lim YatYuen,Wright Josephine A.,Attema Joanne L.,Gregory Philip A.,Bert Andrew G.,Smith Eric,Thomas Daniel,Drew Paul A.,Khew-Goodall Yeesim,Goodall Gregory J.
Abstract
The miR-200 family is a key regulator of EMT, however its role in controlling the transition between cancer stem cell-like and non-stem cell-like phenotypes is not well understood. We utilized immortalized human mammary epithelial cells (HMLE) to investigate the regulation of the miR-200 family during their conversion to a stem-like phenotype. HMLE cells were found to be capable of spontaneous conversion from a non-stem to a stem-like phenotype and this conversion was accompanied by the loss of miR-200 expression. Stem-like cell fractions isolated from metastatic breast cancers also displayed loss of miR-200 indicating similar molecular changes may occur during breast cancer progression. The phenotypic change observed in HMLE cells was directly controlled by miR-200 as restoration of its expression decreased stem-like properties while promoting a transition to an epithelial phenotype. Investigation of the mechanisms controlling miR-200 expression revealed both DNA methylation and histone modifications were significantly altered in the stem-like and non-stem phenotypes. In particular, in the stem-like phenotype, the miR-200b-200a-429 cluster was silenced primarily through polycomb group-mediated histone modifications whereas the miR-200c-141 cluster was repressed by DNA methylation. These results indicate that the miR-200 family plays a critical role in the transition between stem-like and non-stem phenotypes and that distinct epigenetic-based mechanisms regulate each miR-200 gene in this process. Therapy targeted against miR-200 family members and epigenetic modifications may therefore be applicable to breast cancer.
Publisher
The Company of Biologists
Cited by
166 articles.
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