Abstract
The emerging concept of generating cancer stem cells from epithelial-mesenchymal transition has attracted great interest; however, the factors and molecular mechanisms that govern this putative tumor-initiating process remain largely elusive. We report here that miR-200a not only regulates epithelial-mesenchymal transition but also stem-like transition in nasopharyngeal carcinoma cells. We first showed that stable knockdown of miR-200a promotes the transition of epithelium-like CNE-1 cells to the mesenchymal phenotype. More importantly, it also induced several stem cell-like traits, including CD133(+) side population, sphere formation capacity, in vivo tumorigenicity in nude mice, and stem cell marker expression. Consistently, stable overexpression of miR-200a switched mesenchyme-like C666-1 cells to the epithelial state, accompanied by a significant reduction of stem-like cell features. Furthermore, in vitro differentiation of the C666-1 tumor sphere resulted in diminished stem-like cell population and miR-200a induction. To investigate the molecular mechanism, we demonstrated that miR-200a controls epithelial-mesenchymal transition by targeting ZEB2, although it regulates the stem-like transition differentially and specifically by β-catenin signaling. Our findings reveal for the first time the function of miR-200a in shifting nasopharyngeal carcinoma cell states via a reversible process coined as epithelial-mesenchymal to stem-like transition through differential and specific mechanisms.
Highlights
Epithelial-mesenchymal transition (EMT)3 is a crucial developmental program in which immotile epithelial cells acquire mesenchymal traits
Results from our study suggest for the first time the effect and mechanism of miR-200a on shifting nasopharyngeal carcinoma (NPC) cells through a reversible process coined as epithelial-mesenchymal to stem-like transition (EMST) and the potential associations with cell migration and proliferation
We demonstrated for the first time that miR-200a controls EMT, and mediates the acquisition of stem-like cell phenotypes in NPC cells
Summary
Establishment of NPC Cell Lines Stably Lacking or Overexpressing miR-200a—CNE-1 and C666-1 NPC cell lines were obtained and cultured as described previously [23]. Total RNA was isolated from the differentiated cells for the detection of miR-200a, CTNNB1, and ZEB2 expressions by real time quantitative PCR. Both sphere formation assay and sphere differentiation assay were performed twice in triplicate with consistent results. Following our previous protocol [28], NPC tumor xenografts were established by subcutaneous injection of stable CNE-1miRZip-200a cells (5 ϫ 106), C666-1-pLL3.7-miR-200a cells (1 ϫ 106), or respective control cells into the back flanks of mice (n ϭ 6 mice per group). The tumor volume (V) was etry analysis indicated that the CD133ϩ cell population was calculated according to the formula V ϭ ab2/2, where a and b significantly enriched in CNE-1-miRZip-200a cells (Fig. 2A). Differences were considered to be statistically significant at ascertained the induction of stem-like cell traits by detection of p Ͻ 0.05
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