MicroRNA-9 is associated with epithelial-mesenchymal transition, breast cancer stem cell phenotype, and tumor progression in breast cancer

Gwak, Jae Moon; Kim, Hyun Jeong; Kim, Eun Joo; Chung, Yul Ri; Yun, Sangchul; Seo, An Na; Lee, Hee Jin; Park, So Yeon

doi:10.1007/s10549-014-3069-5

Cited by 128 publications

(103 citation statements)

References 34 publications

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“…miR-9 has a well-recognized prometastatic function in human breast cancer (10,23), and it has been more recently associated with poor prognosis, EMT, and stemness features (11). Consistently, we found that higher miR-9 expression identified breast cancer patients with poor prognosis and associated with high histologic grade.…”

Section: Discussionsupporting

confidence: 84%

“…Together with the internalization and degradation of PDGFRb upon stimulation, this provides a mechanism by which signaling through this receptor may be temporally limited. High levels of miR-9 have been associated with prometastatic function in human breast cancer (10), as well as with the acquisition of a mesenchymal and aggressive phenotype (11). On the other hand, members of the miR-200 family (five miRNAs organized in two clusters: miR200a/b/429 and miR-200c/141) are well-known negative regulators of EMT due to their direct targeting of several transcriptional factors implicated in the transition, such as ZEB1/2 and Snail (12).…”

Section: Introductionmentioning

confidence: 99%

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miR-9 and miR-200 Regulate PDGFRβ-Mediated Endothelial Differentiation of Tumor Cells in Triple-Negative Breast Cancer

et al. 2016

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Organization of cancer cells into endothelial-like cell-lined structures to support neovascularization and to fuel solid tumors is a hallmark of progression and poor outcome. In triple-negative breast cancer (TNBC), PDGFRb has been identified as a key player of this process and is considered a promising target for breast cancer therapy. Thus, we aimed at investigating the role of miRNAs as a therapeutic approach to inhibit PDGFRb-mediated vasculogenic properties of TNBC, focusing on miR-9 and miR-200. In MDA-MB-231 and MDA-MB-157 TNBC cell lines, miR-9 and miR-200 promoted and inhibited, respectively, the formation of vascular-like structures in vitro. Induction of endogenous miR-9 expression, upon ligand-dependent stimulation of PDGFRb signaling, promoted significant vascular sprouting of TNBC cells, in part, by direct repression of STARD13. Conversely, ectopic expression of miR-200 inhibited this sprouting by indirectly reducing the protein levels of PDGFRb through the direct suppression of ZEB1. Notably, in vivo miR-9 inhibition or miR-200c restoration, through either the generation of MDA-MB-231-stable clones or peritumoral delivery in MDA-MB-231 xenografted mice, strongly decreased the number of vascular lacunae. Finally, IHC and immunofluorescence analyses in TNBC specimens indicated that PDGFRb expression marked tumor cells engaged in vascular lacunae. In conclusion, our results demonstrate that miR-9 and miR-200 play opposite roles in the regulation of the vasculogenic ability of TNBC, acting as facilitator and suppressor of PDGFRb, respectively. Moreover, our data support the possibility to therapeutically exploit miR-9 and miR-200 to inhibit the process of vascular lacunae formation in TNBC. Cancer Res; 76(18); 5562-72. Ó2016 AACR.

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Section: Discussionsupporting

confidence: 84%

Section: Introductionmentioning

confidence: 99%

miR-9 and miR-200 Regulate PDGFRβ-Mediated Endothelial Differentiation of Tumor Cells in Triple-Negative Breast Cancer

et al. 2016

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“…Downregulation of miR-9-mediated E-cadherin expression results in the activation of β-catenin signaling, which contributes to the upregulation of VEGF; in turn, this leads to increased tumor angiogenesis (80). Overexpression of miR-9 is also found in tumors with aggressive phenotypes, and is related to poor prognosis in breast cancer, suggesting that it may serve as a potential biomarker for the progression of breast cancer as well as a target for treatment (81).…”

Section: Emt-related Mirnas In Breast Cancermentioning

confidence: 99%

Biomarkers for EMT and MET in breast cancer: An update

et al. 2016

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Abstract. Metastasis and recurrence are the leading cause of mortality due to breast cancer, but the underlying mechanisms are still poorly understood. Understanding the breast cancer metastasis mechanism is important for early diagnosis and treatment of breast cancer. The seeding and growth of breast cancer cells at sites distinct from the primary tumor is a complex and multistage process. Recently, it has been reported that the epithelial-mesenchymal transition (EMT) and the mesenchymal-epithelial transition (MET) are the main mechanisms for breast cancer metastasis. During EMT, carcinoma cells shed their differentiated epithelial characteristics, including cell-cell adhesion, polarity and lack of motility, and acquire mesenchymal traits, including motility and invasiveness. This review has summarized the studies of known EMT biomarkers in the context of breast cancer progression. These biomarkers include EMT-related genes, proteins, microRNAs and kinases. In general, the findings of these studies suggest that EMT markers are associated with the invasion and metastasis of breast cancer. Further studies on the link between EMT markers and breast cancer will contribute to identify biomarkers for predicting early breast cancer metastasis as well as to provide new ideas for the treatment of breast cancer. Contents

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“…Patients with basal-like breast cancers frequently have poor prognosis, and are difficult to treat owing to the frequent lack of hormone receptors (a triple-negative phenotype with loss of ER and PR, and no HER2 amplification) that can be therapeutically targeted [138][139][140]. Six of these 16 basal-related miRNAs have been reported to be associated with basal-like/triple-negative breast cancer, including miR-9, miR-18 a, miR-19 a, miR-93, miR-106 b and miR-126 [141][142][143][144][145][146]. Noticeably, three miRNAs (miR-126, miR-143, miR-210) implicated in the DCIS-to-IDC transition are specifically dysregulated in basal-like IDC, suggesting that their deregulation plays a critical role in driving the progression of DCIS lesions to malignant basal-like IDC tumors (Table 2) Among luminal subtypes, luminal-B is a more aggressive subtype than luminal-A owing to low/negative expression of PR and/or HER2 overexpression, and high proliferation indicated by high Ki-67 [148].…”

Section: The Roles Of Mirnas In Breast Cancer Molecular Subtypesmentioning

confidence: 99%

Noncoding RNAs in breast cancer

Lo¹,

Wolfson²,

Zhou³

et al. 2015

Briefings in Functional Genomics

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The mammalian transcriptome has recently been revealed to encompass a large number of noncoding RNAs (ncRNAs) that play a variety of important regulatory roles in gene expression and other biological processes. MicroRNAs (miRNAs), the best studied of the short noncoding RNAs (sncRNAs), have been extensively characterized with regard to their biogenesis, function and importance in tumorigenesis. Another class of sncRNAs called piwi-interacting RNAs (piRNAs) has also gained attention recently in cancer research owing to their critical role in stem cell regulation. Long noncoding RNAs (lncRNAs) of >200 nucleotides in length have recently emerged as key regulators of developmental processes, including mammary gland development. lncRNA dysregulation has also been implicated in the development of various cancers, including breast cancer. In this review, we describe and discuss the roles of sncRNAs (including miRNAs and piRNAs) and lncRNAs in the initiation and progression of breast tumorigenesis, with a focus on outlining the molecular mechanisms of oncogenic and tumor-suppressor ncRNAs. Moreover, the current and potential future applications of ncRNAs to clinical breast cancer research are also discussed, with an emphasis on ncRNA-based diagnosis, prognosis and future therapeutics.

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MicroRNA-9 is associated with epithelial-mesenchymal transition, breast cancer stem cell phenotype, and tumor progression in breast cancer

Cited by 128 publications

References 34 publications

miR-9 and miR-200 Regulate PDGFRβ-Mediated Endothelial Differentiation of Tumor Cells in Triple-Negative Breast Cancer

miR-9 and miR-200 Regulate PDGFRβ-Mediated Endothelial Differentiation of Tumor Cells in Triple-Negative Breast Cancer

Biomarkers for EMT and MET in breast cancer: An update

Noncoding RNAs in breast cancer

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