MicroRNA-193b-3p Represses Neuroblastoma Cell Growth Via Downregulation of , and

Overview

Journal Oncotarget

Specialty Oncology

Date 2018 May 3

PMID 29719597

Citations 17

Authors

Sarah Andrea Roth

Oyvind H Hald

Steffen Fuchs

Cecilie Lokke

Ingvild Mikkola

Trond Flaegstad

Johannes Schulte

Christer Einvik

Affiliations

Soon will be listed here.

Abstract

Neuroblastoma is the most common diagnosed tumor in infants and the second most common extracranial tumor of childhood. The survival rate of patients with high-risk neuroblastoma is still very low despite intensive multimodal treatments. Therefore, new treatment strategies are needed. In recent years, miRNA-based anticancer therapy has received growing attention. Advances in this novel treatment strategy strongly depends on the identification of candidate miRNAs with broad-spectrum antitumor activity. Here, we identify miR-193b as a miRNA with tumor suppressive properties. We show that miR-193b is expressed at low levels in neuroblastoma cell lines and primary tumor samples. Introduction of miR-193b mimics into nine neuroblastoma cell lines with distinct genetic characteristics significantly reduces cell growth independent of risk factors such as p53 functionality or amplification. Functionally, miR-193b induces a G1 cell cycle arrest and cell death in neuroblastoma cell lines by reducing the expression of , and , three important oncogenes in neuroblastoma of which inhibition has shown promising results in preclinical testing. Therefore, we suggest that miR-193b may represent a new candidate for miRNA-based anticancer therapy in neuroblastoma.

Citing Articles

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