Attenuated adenosine-to-inosine editing of microRNA-376a* promotes invasiveness of glioblastoma cells
Yukti Choudhury, … , Beng-Ti Ang, Shu Wang
Yukti Choudhury, … , Beng-Ti Ang, Shu Wang
Published October 24, 2012
Citation Information: J Clin Invest. 2012;122(11):4059-4076. https://doi.org/10.1172/JCI62925.
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Research Article

Attenuated adenosine-to-inosine editing of microRNA-376a* promotes invasiveness of glioblastoma cells

Abstract

In the human brain, microRNAs (miRNAs) from the microRNA-376 (miR-376) cluster undergo programmed “seed” sequence modifications by adenosine-to-inosine (A-to-I) editing. Emerging evidence suggests a link between impaired A-to-I editing and cancer, particularly in high-grade gliomas. We hypothesized that disruption of A-to-I editing alters expression of genes regulating glioma tumor phenotypes. By sequencing the miR-376 cluster, we show that the overall miRNA editing frequencies were reduced in human gliomas. Specifically in high-grade gliomas, miR-376a* accumulated entirely in an unedited form. Clinically, a significant correlation was found between accumulation of unedited miR-376a* and the extent of invasive tumor spread as measured by magnetic resonance imaging of patient brains. Using both in vitro and orthotopic xenograft mouse models, we demonstrated that the unedited miR-376a* promoted glioma cell migration and invasion, while the edited miR-376a* suppressed these features. The effects of the unedited miR-376a* were mediated by its sequence-dependent ability to target RAP2A and concomitant inability to target AMFR. Thus, the tumor-dependent introduction of a single base difference in the miR-376a* sequence dramatically alters the selection of its target genes and redirects its function from inhibiting to promoting glioma cell invasion. These findings uncover a new mechanism of miRNA deregulation and identify unedited miR-376a* as a potential therapeutic target in glioblastoma cells.

Authors

Yukti Choudhury, Felix Chang Tay, Dang Hoang Lam, Edwin Sandanaraj, Carol Tang, Beng-Ti Ang, Shu Wang

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Figure 8

Effects of manipulating RAP2A expression on migration and invasion of glioma cells.

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Effects of manipulating RAP2A expression on migration and invasion of gl...
(AC) Knockdown of RAP2A by two siRNAs (2.5 nM) validated by Western blotting in A promotes glioma cell invasion (B) and migration (C). In the invasion assays, seeded cells that invaded Matrigel were quantified after 24 hours (n = 4), and values are normalized to control for each cell line. Graph shows results of wound healing migration assay as wound gap closure relative to control (n = 3). Original magnification, ×100. (D) Immunoblotting of RAP2A in U87 and SW1783 cells co-transfected with expression vectors containing a full-length RAP2A cDNA (RAP2A 3′ UTR) or RAP2A without 3′ UTR (RAP2A ORF) and miR-376a* or control miRNA. β-Actin was used as loading control. Densitometric analysis was done by Image J software, and values were normalized to control for each construct. (E) Matrigel invasion assay of U87 and SW1783 glioma cells co-transfected with RAP2A expression vectors and miR-376a* or control miRNA. Number of invading cells was quantified after 24 hours (n = 4). Values are normalized to control for each expression construct. Error bars indicate SD. *P < 0.05, **P < 0.01, ***P < 0.001 by t test.