Journal Article

Potential of tumor-suppressive <i>miR-596</i> targeting <i>LGALS3BP</i> as a therapeutic agent in oral cancer

Hironori Endo, Tomoki Muramatsu, Mayuko Furuta, Narikazu Uzawa, Atiphan Pimkhaokham, Teruo Amagasa, Johji Inazawa and Ken-ichi Kozaki

in Carcinogenesis

Volume 34, issue 3, pages 560-569
Published in print March 2013 | ISSN: 0143-3334
Published online December 2012 | e-ISSN: 1460-2180 | DOI: http://dx.doi.org/10.1093/carcin/bgs376
Potential of tumor-suppressive miR-596 targeting LGALS3BP as a therapeutic agent in oral cancer

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The incidence and mortality statistics for oral squamous cell carcinoma (OSCC) were 10th and 12th, respectively, in human cancers diagnosed worldwide in 2008. In this study, to identify novel tumor-suppressive microRNAs (TS-miRNAs) and their direct targets in OSCC, we performed methylation-based screening for 43 miRNAs encoded by 46 miRNA genes located within 500bp downstream of 40 CpG islands and genome-wide gene expression profiling in combination with a prediction database analysis, respectively, in 18 cell lines, resulting in the identification of a novel TS-miRNA miR-596 directly targeting LGALS3BP/Mac-2 BP/90K. DNA hypermethylation of CpG island located 5′-upstream of miR-596 gene was frequently observed in OSCC cell lines (100% of 18 cell lines) and primary OSCC cases (46.2 and 76.3% of 26 Japanese and 38 Thais primary cases, respectively) in a tumor-specific manner. The ectopic transfection of double-stranded RNA (dsRNA) mimicking miR-596 or specific small interfering RNA for LGALS3BP significantly induced growth inhibition and apoptosis in cell lines lacking miR-596 expression or overexpressing LGALS3BP, respectively, in a manner associated with a suppression of ERK1/2 phosphorylation. Moreover, we also mention the effect of dsRNA mimicking miR-596 on the growth of an OSCC cell line in vivo. Our findings define a central role for miR-596 in OSCC and suggest the potential of miR-596 as an anticancer agent for miRNA replacement therapy in OSCC.

Journal Article.  6167 words.  Illustrated.

Subjects: Clinical Cytogenetics and Molecular Genetics

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