Is a Target of MiR-124 and Promotes Neuroblastoma Proliferation and Undifferentiated State

Overview

Journal Mol Cancer Res

Specialty Cell Biology

Date 2019 Oct 19

PMID 31624087

Citations 10

Authors

Adam Kosti

Liqin Du

Haridha Shivram

Mei Qiao

Suzanne Burns

Juan Gabriel Garcia

Alexander Pertsemlidis

Vishwanath R Iyer

Erzsebet Kokovay

Luiz O F Penalva

Affiliations

Soon will be listed here.

Abstract

13--retinoic acid (RA) is typically used in postremission maintenance therapy in patients with neuroblastoma. However, side effects and recurrence are often observed. We investigated the use of miRNAs as a strategy to replace RA as promoters of differentiation. miR-124 was identified as the top candidate in a functional screen. Genomic target analysis indicated that repression of a network of transcription factors (TF) could be mediating most of miR-124's effect in driving differentiation. To advance miR-124 mimic use in therapy and better define its mechanism of action, a high-throughput siRNA morphologic screen focusing on its TF targets was conducted and was identified as a leading candidate for miR-124 repression. By altering its expression levels, we showed that ELF4 maintains neuroblastoma in an undifferentiated state and promotes proliferation. Moreover, ELF4 transgenic expression was able to counteract the neurogenic effect of miR-124 in neuroblastoma cells. With RNA sequencing, we established the main role of to be regulation of cell-cycle progression, specifically through the DREAM complex. Interestingly, several cell-cycle genes activated by ELF4 are repressed by miR-124, suggesting that they might form a TF-miRNA regulatory loop. Finally, we showed that high expression is often observed in neuroblastomas and is associated with poor survival. IMPLICATIONS: miR-124 induces neuroblastoma differentiation partially through the downregulation of TF , which drives neuroblastoma proliferation and its undifferentiated phenotype.

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