Alternative polyadenylation reprogramming of MORC2 induced by NUDT21 loss promotes KIRC carcinogenesis
Yuqin Tan, … , Ke Li, Ning Na
Yuqin Tan, … , Ke Li, Ning Na
Published September 22, 2023
Citation Information: JCI Insight. 2023;8(18):e162893. https://doi.org/10.1172/jci.insight.162893.
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Research Article Oncology

Alternative polyadenylation reprogramming of MORC2 induced by NUDT21 loss promotes KIRC carcinogenesis

Abstract

Alternative polyadenylation (APA), a posttranscriptional mechanism of gene expression via determination of 3′UTR length, has an emerging role in carcinogenesis. Although abundant APA reprogramming is found in kidney renal clear cell carcinoma (KIRC), which is one of the major malignancies, whether APA functions in KIRC remains unknown. Herein, we found that chromatin modifier MORC2 gained oncogenic potential in KIRC among the genes with APA reprogramming, and moreover, its oncogenic potential was enhanced by 3′UTR shortening through stabilization of MORC2 mRNA. MORC2 was found to function in KIRC by downregulating tumor suppressor DAPK1 via DNA methylation. Mechanistically, MORC2 recruited DNMT3A to facilitate hypermethylation of the DAPK1 promoter, which was strengthened by 3′UTR shortening of MORC2. Furthermore, loss of APA regulator NUDT21, which was induced by DNMT3B-mediated promoter methylation, was identified as responsible for 3′UTR shortening of MORC2 in KIRC. Additionally, NUDT21 was confirmed to act as a tumor suppressor mainly depending on downregulation of MORC2. Finally, we designed an antisense oligonucleotide (ASO) to enhance NUDT21 expression and validated its antitumor effect in vivo and in vitro. This study uncovers the DNMT3B/NUDT21/APA/MORC2/DAPK1 regulatory axis in KIRC, disclosing the role of APA in KIRC and the crosstalk between DNA methylation and APA.

Authors

Yuqin Tan, Tong Zheng, Zijun Su, Min Chen, Suxiang Chen, Rui Zhang, Ruojiao Wang, Ke Li, Ning Na

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Figure 1

Among the genes with shortened 3′UTRs in KIRC, UCK2 and MORC2 gain oncogenic potential.

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Among the genes with shortened 3′UTRs in KIRC, UCK2 and MORC2 gain oncog...
(A) The diagram indicating the composition of 3′UTR reprogramming in KIRC. (B) The quantitative summary of genes with shortened 3′UTRs in KIRC. (C) The sketch map indicating the procedure of bioinformatic analysis to identify potential oncogenes of KIRC. (D) The Venn diagram indicating the potential oncogenes among genes with shortened 3′UTRs in KIRC. (E) Immunoblotting was performed to evaluate the expression of Flag-UCK2 and Flag-MORC2 in Caki-1 and A498 cells transfected with empty Flag vector, Flag-UCK2, or Flag-MORC2 plasmid. (F) CCK8 assays were performed to evaluate the proliferation rate of Caki-1 cells and A498 cells transfected with empty Flag vector, Flag-UCK2, or Flag-MORC2 plasmid (n = 3). (G) Colony formation assays were performed and quantitatively analyzed to evaluate the clonogenicity of Caki-1 cell and A498 cells transfected with empty Flag vector, Flag-UCK2, or Flag-MORC2 plasmid (n = 3). (H) Soft agar assays were performed and quantitatively analyzed to evaluate the clonogenicity of Caki-1 cell and A498 cells transfected with empty Flag vector, Flag-UCK2, or Flag-MORC2 plasmid (n = 3). All data represent the mean ± SD. Two-tailed t test analyses were performed. **P < 0.01; ***P < 0.001.