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Mol. Cells

Published online March 16, 2023

© The Korean Society for Molecular and Cellular Biology

RNA Editing Enzyme ADAR1 Suppresses the Mobility of Cancer Cells via ARPIN

Min Ji Park1 , Eunji Jeong1 , Eun Ji Lee1 , Hyeon Ji Choi1 , Bo Hyun Moon2 , Keunsoo Kang3 , and Suhwan Chang1,4,*

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1Department of Biomedical Sciences, Asan Medical Center, University of Ulsan College of Medicine, Seoul 05505, Korea, 2Department of Internal Medicine, Asan Medical Center, University of Ulsan College of Medicine, Seoul 05505, Korea, 3Department of Microbiology, College of Science & Technology, Dankook University, Cheonan 31116, Korea, 4Department of Physiology, Asan Medical Center, University of Ulsan College of Medicine, Seoul 05505, Korea

Correspondence to : suhwan.chang@amc.seoul.kr

Received: November 9, 2022; Revised: January 5, 2023; Accepted: January 15, 2023

This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/.

Abstract

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Deamination of adenine or cytosine in RNA, called RNA editing, is a constitutively active and common modification. The primary role of RNA editing is tagging RNA right after its synthesis so that the endogenous RNA is recognized as self and distinguished from exogenous RNA, such as viral RNA. In addition to this primary function, the direct or indirect effects on gene expression can be utilized in cancer where a high level of RNA editing activity persists. This report identified actin-related protein 2/3 complex inhibitor (ARPIN) as a target of ADAR1 in breast cancer cells. Our comparative RNA sequencing analysis in MCF7 cells revealed that the expression of ARPIN was decreased upon ADAR1 depletion with altered editing on its 3’UTR. However, the expression changes of ARPIN were not dependent on 3’UTR editing but relied on three microRNAs acting on ARPIN. As a result, we found that the migration and invasion of cancer cells were profoundly increased by ADAR1 depletion, and this cellular phenotype was reversed by the exogenous ARPIN expression. Altogether, our data suggest that ADAR1 suppresses breast cancer cell mobility via the upregulation of ARPIN.

Keywords ADAR1, ARPIN, breast cancer, metastasis, RNA editing

Article

On-line First

Mol. Cells

Published online March 16, 2023

Copyright © The Korean Society for Molecular and Cellular Biology.

RNA Editing Enzyme ADAR1 Suppresses the Mobility of Cancer Cells via ARPIN

Min Ji Park1 , Eunji Jeong1 , Eun Ji Lee1 , Hyeon Ji Choi1 , Bo Hyun Moon2 , Keunsoo Kang3 , and Suhwan Chang1,4,*

1Department of Biomedical Sciences, Asan Medical Center, University of Ulsan College of Medicine, Seoul 05505, Korea, 2Department of Internal Medicine, Asan Medical Center, University of Ulsan College of Medicine, Seoul 05505, Korea, 3Department of Microbiology, College of Science & Technology, Dankook University, Cheonan 31116, Korea, 4Department of Physiology, Asan Medical Center, University of Ulsan College of Medicine, Seoul 05505, Korea

Correspondence to:suhwan.chang@amc.seoul.kr

Received: November 9, 2022; Revised: January 5, 2023; Accepted: January 15, 2023

This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/.

Abstract

Deamination of adenine or cytosine in RNA, called RNA editing, is a constitutively active and common modification. The primary role of RNA editing is tagging RNA right after its synthesis so that the endogenous RNA is recognized as self and distinguished from exogenous RNA, such as viral RNA. In addition to this primary function, the direct or indirect effects on gene expression can be utilized in cancer where a high level of RNA editing activity persists. This report identified actin-related protein 2/3 complex inhibitor (ARPIN) as a target of ADAR1 in breast cancer cells. Our comparative RNA sequencing analysis in MCF7 cells revealed that the expression of ARPIN was decreased upon ADAR1 depletion with altered editing on its 3’UTR. However, the expression changes of ARPIN were not dependent on 3’UTR editing but relied on three microRNAs acting on ARPIN. As a result, we found that the migration and invasion of cancer cells were profoundly increased by ADAR1 depletion, and this cellular phenotype was reversed by the exogenous ARPIN expression. Altogether, our data suggest that ADAR1 suppresses breast cancer cell mobility via the upregulation of ARPIN.

Keywords: ADAR1, ARPIN, breast cancer, metastasis, RNA editing

Mol. Cells
Feb 28, 2023 Vol.46 No.2, pp. 69~129
COVER PICTURE
The bulk tissue is a heterogeneous mixture of various cell types, which is depicted as a skein of intertwined threads with diverse colors each of which represents a unique cell type. Single-cell omics analysis untangles efficiently the skein according to the color by providing information of molecules at individual cells and interpretation of such information based on different cell types. The molecules that can be profiled at the individual cell by single-cell omics analysis includes DNA (bottom middle), RNA (bottom right), and protein (bottom left). This special issue reviews single-cell technologies and computational methods that have been developed for the single-cell omics analysis and how they have been applied to improve our understanding of the underlying mechanisms of biological and pathological phenomena at the single-cell level.
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