In vivo NCL targeting affects breast cancer aggressiveness through miRNA regulation

Flavia Pichiorri; Dario Palmieri; Luciana De Luca; Jessica Consiglio; Jia You; Alberto Rocci; Tiffany Talabere; Claudia Piovan; Alessandro Laganà; Luciano Cascione; Jingwen Guan; Pierluigi Gasparini; Veronica Balatti; Gerard J. Nuovo; Vincenzo Coppola; Craig C. Hofmeister; Guido Marcucci; John C. Byrd; Stefano Volinia; Charles L. Shapiro; Michael A. Freitas; Carlo M. Croce

doi:10.1084/jem.20120950

In vivo NCL targeting affects breast cancer aggressiveness through miRNA regulation

Flavia Pichiorri(The Ohio State University), Dario Palmieri(The Ohio State University), Luciana De Luca(Centro di Riferimento Oncologico della Basilicata), Jessica Consiglio(The Ohio State University), Jia You(The Ohio State University), Alberto Rocci(Azienda Ospedaliero Universitaria San Giovanni Battista), Tiffany Talabere(The Ohio State University), Claudia Piovan(The Ohio State University), Alessandro Laganà(The Ohio State University), Luciano Cascione(University of Catania), Jingwen Guan(The Ohio State University), Pierluigi Gasparini(The Ohio State University), Veronica Balatti(The Ohio State University), Gerard J. Nuovo(Phylogeny (United States)), Vincenzo Coppola(The Ohio State University), Craig C. Hofmeister(Comprehensive Blood & Cancer Center), Guido Marcucci(The Ohio State University), John C. Byrd(The Ohio State University), Stefano Volinia(University of Ferrara), Charles L. Shapiro(The Ohio State University), Michael A. Freitas(The Ohio State University), Carlo M. Croce(The Ohio State University)

The Journal of Experimental Medicine

April 22, 2013

10.1084/jem.20120950

Cited by 156Open Access

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Abstract

Numerous studies have described the altered expression and the causal role of microRNAs (miRNAs) in human cancer. However, to date, efforts to modulate miRNA levels for therapeutic purposes have been challenging to implement. Here we find that nucleolin (NCL), a major nucleolar protein, posttranscriptionally regulates the expression of a specific subset of miRNAs, including miR-21, miR-221, miR-222, and miR-103, that are causally involved in breast cancer initiation, progression, and drug resistance. We also show that NCL is commonly overexpressed in human breast tumors and that its expression correlates with that of NCL-dependent miRNAs. Finally, inhibition of NCL using guanosine-rich aptamers reduces the levels of NCL-dependent miRNAs and their target genes, thus reducing breast cancer cell aggressiveness both in vitro and in vivo. These findings illuminate a path to novel therapeutic approaches based on NCL-targeting aptamers for the modulation of miRNA expression in the treatment of breast cancer.

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