A reciprocal repression between ZEB1 and members of the miR-200 family promotes EMT and invasion in cancer cells

The embryonic programme ‘epithelial–mesenchymal transition’ (EMT) is thought to promote malignant tumour progression. The transcriptional repressor zinc‐finger E‐box binding homeobox 1 (ZEB1) is a crucial inducer of EMT in various human tumours, and was recently shown to promote invasion and metastasis of tumour cells. Here, we report that ZEB1 directly suppresses transcription of microRNA‐200 family members miR‐141 and miR‐200c, which strongly activate epithelial differentiation in pancreatic, colorectal and breast cancer cells. Notably, the EMT activators transforming growth factor β2 and ZEB1 are the predominant targets downregulated by these microRNAs. These results indicate that ZEB1 triggers an microRNA‐mediated feedforward loop that stabilizes EMT and promotes invasion of cancer cells. Alternatively, depending on the environmental trigger, this loop might switch and induce epithelial differentiation, and thus explain the strong intratumorous heterogeneity observed in many human cancers.

[1]  W. Gerald,et al.  Endogenous human microRNAs that suppress breast cancer metastasis , 2008, Nature.

[2]  F. Portillo,et al.  SNAI1 is required for tumor growth and lymph node metastasis of human breast carcinoma MDA-MB-231 cells. , 2007, Cancer research.

[3]  C. Burge,et al.  Prediction of Mammalian MicroRNA Targets , 2003, Cell.

[4]  J. Thiery,et al.  Pre-EMTing metastasis? Recapitulation of morphogenetic processes in cancer , 2007, Clinical & Experimental Metastasis.

[5]  G. Goodall,et al.  The miR-200 family and miR-205 regulate epithelial to mesenchymal transition by targeting ZEB1 and SIP1 , 2008, Nature Cell Biology.

[6]  D. Bartel MicroRNAs Genomics, Biogenesis, Mechanism, and Function , 2004, Cell.

[7]  S. Ramaswamy,et al.  Twist, a Master Regulator of Morphogenesis, Plays an Essential Role in Tumor Metastasis , 2004, Cell.

[8]  F. Slack,et al.  Oncomirs — microRNAs with a role in cancer , 2006, Nature Reviews Cancer.

[9]  P. Oettgen,et al.  Transcriptional activation of integrin beta6 during the epithelial-mesenchymal transition defines a novel prognostic indicator of aggressive colon carcinoma. , 2005, The Journal of clinical investigation.

[10]  Asli Silahtaroglu,et al.  Altered MicroRNA expression confined to specific epithelial cell subpopulations in breast cancer. , 2007, Cancer research.

[11]  T. Brabletz,et al.  Expression of the Invasion Factor Laminin γ2 in Colorectal Carcinomas Is Regulated by β-Catenin , 2001 .

[12]  J. Thiery,et al.  Complex networks orchestrate epithelial–mesenchymal transitions , 2006, Nature Reviews Molecular Cell Biology.

[13]  Thomas Kirchner,et al.  Migrating cancer stem cells — an integrated concept of malignant tumour progression , 2005, Nature Reviews Cancer.

[14]  Sun-Mi Park,et al.  The miR-200 family determines the epithelial phenotype of cancer cells by targeting the E-cadherin repressors ZEB1 and ZEB2. , 2008, Genes & development.

[15]  R. Weinberg,et al.  Tumour invasion and metastasis initiated by microRNA-10b in breast cancer , 2007, Nature.

[16]  M. Mareel,et al.  Leptin promotes invasiveness of kidney and colonic epithelial cells via phosphoinositide 3‐kinase‐, Rho‐, and Rac‐dependent signaling pathways , 2000, The FASEB Journal.

[17]  Thomas Kirchner,et al.  Down-Regulation of the Homeodomain Factor Cdx2 in Colorectal Cancer by Collagen Type I , 2004, Cancer Research.

[18]  G. Berx,et al.  A transient, EMT-linked loss of basement membranes indicates metastasis and poor survival in colorectal cancer. , 2006, Gastroenterology.

[19]  J. Clements,et al.  Epithelial—mesenchymal and mesenchymal—epithelial transitions in carcinoma progression , 2007, Journal of cellular physiology.

[20]  Héctor Peinado,et al.  Snail, Zeb and bHLH factors in tumour progression: an alliance against the epithelial phenotype? , 2007, Nature Reviews Cancer.

[21]  John Condeelis,et al.  The cofilin pathway in breast cancer invasion and metastasis , 2007, Nature Reviews Cancer.

[22]  M. Nieto,et al.  The Snail genes as inducers of cell movement and survival: implications in development and cancer , 2005, Development.

[23]  A. Dimmler,et al.  The transcriptional repressor ZEB1 promotes metastasis and loss of cell polarity in cancer. , 2008, Cancer research.

[24]  S. Spivack,et al.  Overexpression of the microRNA hsa-miR-200c leads to reduced expression of transcription factor 8 and increased expression of E-cadherin. , 2007, Cancer research.

[25]  S. Frisch,et al.  Evidence for a function of CtBP in epithelial gene regulation and anoikis , 2000, Oncogene.

[26]  R. Knuechel,et al.  Variable β-catenin expression in colorectal cancers indicates tumor progression driven by the tumor environment , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[27]  Douglas S. Darling,et al.  Zeb1 links epithelial-mesenchymal transition and cellular senescence , 2008, Development.

[28]  J Meiler,et al.  Negative regulation of CD4 expression in T cells by the transcriptional repressor ZEB. , 1999, International immunology.

[29]  R. Foisner,et al.  The transcription factor ZEB1 (δEF1) promotes tumour cell dedifferentiation by repressing master regulators of epithelial polarity , 2007, Oncogene.