The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer

The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer

Abstract RNA-based therapeutics are emerging as innovative options for cancer treatment, with microRNAs being attractive targets for therapy development. We previously implicated microRNA-642a-5p (miR-642a-5p) as a tumor suppressor in prostate cancer (PCa), and here we characterize its mode of actio...

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Main Authors: Dianne J. Beveridge, Kirsty L. Richardson, Michael R. Epis, Rikki A. M. Brown, Lisa M. Stuart, Andrew J. Woo, Peter J. Leedman
Format: Article
Language:English
Published: Nature Publishing Group 2021-09-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-97190-x
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spelling doaj-cb9118786c3647f78f95a546270cae692021-09-12T11:23:56ZengNature Publishing GroupScientific Reports2045-23222021-09-0111111410.1038/s41598-021-97190-xThe tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancerDianne J. Beveridge0Kirsty L. Richardson1Michael R. Epis2Rikki A. M. Brown3Lisa M. Stuart4Andrew J. Woo5Peter J. Leedman6Laboratory for Cancer Medicine, Harry Perkins Institute of Medical Research, QEII Medical CentreLaboratory for Cancer Medicine, Harry Perkins Institute of Medical Research, QEII Medical CentreLaboratory for Cancer Medicine, Harry Perkins Institute of Medical Research, QEII Medical CentreLaboratory for Cancer Medicine, Harry Perkins Institute of Medical Research, QEII Medical CentreLaboratory for Cancer Medicine, Harry Perkins Institute of Medical Research, QEII Medical CentreLaboratory for Cancer Medicine, Harry Perkins Institute of Medical Research, QEII Medical CentreLaboratory for Cancer Medicine, Harry Perkins Institute of Medical Research, QEII Medical CentreAbstract RNA-based therapeutics are emerging as innovative options for cancer treatment, with microRNAs being attractive targets for therapy development. We previously implicated microRNA-642a-5p (miR-642a-5p) as a tumor suppressor in prostate cancer (PCa), and here we characterize its mode of action, using 22Rv1 PCa cells. In an in vivo xenograft tumor model, miR-642a-5p induced a significant decrease in tumor growth, compared to negative control. Using RNA-Sequencing, we identified gene targets of miR-642a-5p which were enriched for gene sets controlling cell cycle; downregulated genes included Wilms Tumor 1 gene (WT1), NUAK1, RASSF3 and SKP2; and upregulated genes included IGFBP3 and GPS2. Analysis of PCa patient datasets showed a higher expression of WT1, NUAK1, RASSF3 and SKP2; and a lower expression of GPS2 and IGFBP3 in PCa tissue compared to non-malignant prostate tissue. We confirmed the prostatic oncogene WT1, as a direct target of miR-642a-5p, and treatment of 22Rv1 and LNCaP PCa cells with WT1 siRNA or a small molecule inhibitor of WT1 reduced cell proliferation. Taken together, these data provide insight into the molecular mechanisms by which miR-642a-5p acts as a tumor suppressor in PCa, an effect partially mediated by regulating genes involved in cell cycle control; and restoration of miR-642-5p in PCa could represent a novel therapeutic approach.https://doi.org/10.1038/s41598-021-97190-x
collection DOAJ
language English
format Article
sources DOAJ
author Dianne J. Beveridge
Kirsty L. Richardson
Michael R. Epis
Rikki A. M. Brown
Lisa M. Stuart
Andrew J. Woo
Peter J. Leedman
spellingShingle Dianne J. Beveridge
Kirsty L. Richardson
Michael R. Epis
Rikki A. M. Brown
Lisa M. Stuart
Andrew J. Woo
Peter J. Leedman
The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer
Scientific Reports
author_facet Dianne J. Beveridge
Kirsty L. Richardson
Michael R. Epis
Rikki A. M. Brown
Lisa M. Stuart
Andrew J. Woo
Peter J. Leedman
author_sort Dianne J. Beveridge
title The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer
title_short The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer
title_full The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer
title_fullStr The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer
title_full_unstemmed The tumor suppressor miR-642a-5p targets Wilms Tumor 1 gene and cell-cycle progression in prostate cancer
title_sort tumor suppressor mir-642a-5p targets wilms tumor 1 gene and cell-cycle progression in prostate cancer
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-09-01
description Abstract RNA-based therapeutics are emerging as innovative options for cancer treatment, with microRNAs being attractive targets for therapy development. We previously implicated microRNA-642a-5p (miR-642a-5p) as a tumor suppressor in prostate cancer (PCa), and here we characterize its mode of action, using 22Rv1 PCa cells. In an in vivo xenograft tumor model, miR-642a-5p induced a significant decrease in tumor growth, compared to negative control. Using RNA-Sequencing, we identified gene targets of miR-642a-5p which were enriched for gene sets controlling cell cycle; downregulated genes included Wilms Tumor 1 gene (WT1), NUAK1, RASSF3 and SKP2; and upregulated genes included IGFBP3 and GPS2. Analysis of PCa patient datasets showed a higher expression of WT1, NUAK1, RASSF3 and SKP2; and a lower expression of GPS2 and IGFBP3 in PCa tissue compared to non-malignant prostate tissue. We confirmed the prostatic oncogene WT1, as a direct target of miR-642a-5p, and treatment of 22Rv1 and LNCaP PCa cells with WT1 siRNA or a small molecule inhibitor of WT1 reduced cell proliferation. Taken together, these data provide insight into the molecular mechanisms by which miR-642a-5p acts as a tumor suppressor in PCa, an effect partially mediated by regulating genes involved in cell cycle control; and restoration of miR-642-5p in PCa could represent a novel therapeutic approach.
url https://doi.org/10.1038/s41598-021-97190-x
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