MicroRNAs (miRNAs) are approximately 22-nucleotide RNAs that can pair to sites within messenger RNAs to specify posttranscriptional repression of these messages. Aberrant miRNA expression can contribute to tumorigenesis, but which of the many miRNA-target relationships are relevant to this process has been unclear. Here, we report that chromosomal translocations previously associated with human tumors disrupt repression of High Mobility Group A2 (Hmga2) by let-7 miRNA. This disrupted repression promotes anchorage-independent growth, a characteristic of oncogenic transformation. Thus, losing miRNA-directed repression of an oncogene provides a mechanism for tumorigenesis, and disrupting a single miRNA-target interaction can produce an observable phenotype in mammalian cells.
Cristina Oliveira-Mateos, Anaís Sánchez‐Castillo, Marta Soler, Aida Obiols-Guardia, David Piñeyro, Raquel Boqué-Sastre, María Eréndira Calleja-Cervantes, Manuel Castro de Moura, Anna Martínez‐Cardús, Teresa Rubio, Joffrey Pelletier, María Martínez‐Iniesta, David Herrero‐Martín, Òscar M. Tirado, Antonio Gentilella, Alberto Villanueva, Manel Esteller, Lourdes Farré, Sònia Guil
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