MiR-520d-5p Can Reduce the Mutations in Hepatoma Cancer Cells and IPSCs-derivatives

Overview

Journal BMC Cancer

Publisher Biomed Central

Specialty Oncology

Date 2019 Jun 17

PMID 31202279

Citations 2

Authors

Norimasa Miura

Yoshitaka Ishihara

Yugo Miura

Mai Kimoto

Keigo Miura

Affiliations

Soon will be listed here.

Abstract

Background: Human microRNAs (miRNAs) have diverse functions in biology, and play a role in nearly every biological process. Here we report that miR-520d-5p (520d-5p) causes undifferentiated cancer cells to adopt benign or normal status in vivo in immunodeficient mice via demethylation and P53 upregulation. Further we found that 520-5p causes normal cells to elongate cellular lifetime and mesenchymal stem cell-like status with CD105 positivity. We hypothesized that ectopic 520d-5p expression reduced mutations in undifferentiated type of hepatoma (HLF) cells through synergistic modulation of methylation-related enzymatic expression.

Methods: To examine whether there were any changes in mutation status in cells treated with 520d-5p, we performed next generation sequencing (NGS) in HLF cells and human iPSC-derivative cells in pre-mesenchymal stem cell status. We analyzed the data using both genome-wide and individual gene function approaches.

Results: 520d-5p induced a shift towards a wild type or non-malignant phenotype, which was regulated by nucleotide mutations in both HLF cells and iPSCs. Further, 520d-5p reduced mutation levels in both the whole genome and genomic fragment assemblies.

Conclusions: Cancer cell genomic mutations cannot be repaired in most contexts. However, these findings suggest that applied development of 520d-5p would allow new approaches to cancer research and improve the quality of iPSCs used in regenerative medicine.

Citing Articles

lncRNA GPRC5D-AS1 as a ceRNA inhibits skeletal muscle aging by regulating miR-520d-5p.

Yu M, He X, Liu T, Li J Aging (Albany NY). 2023; 15(23):13980-13997.

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Circular RNA FNDC3B Protects Oral Squamous Cell Carcinoma Cells From Ferroptosis and Contributes to the Malignant Progression by Regulating miR-520d-5p/SLC7A11 Axis.

Yang J, Cao X, Luan K, Huang Y Front Oncol. 2021; 11:672724.

PMID: 34434890 PMC: 8382281. DOI: 10.3389/fonc.2021.672724.

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