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[news]-Peptidylprolyl isomerase A guides SENP5/GAU1 DNA-lncRNA triplex generation for driving tumorigenesis

On October 21, a research paper entitled  Peptidylprolyl isomerase A guides SENP5/GAU1 DNA-lncRNA triplex generation for driving tumorigenesis was published online in Nature Communications. The research was done by Professor ZHANG He, from the School of Life Science and Technology of Tongji University jointly  with Jinggangshan University in Jiangxi Province.

This research revealed the generation of  DNA-lncRNA triplex. The three-stranded DNA-RNA triplex hybridization is involved in various biological processes, including gene expression regulation, DNA repair, and chromosomal stability. However, the DNA-RNA triplex mediating mechanisms underlying tumorigenesis remain to be fully elucidated. Here, we show that peptidylprolyl isomerase A (PPIA) serves as anchor to recruit GAU1 lncRNA by interacting with exon 4 of GAU1 and enhances the formation of SENP5/GAU1 DNA-lncRNA triplex. Intriguingly, TFR4 region of GAU1 exon 3 and TTS4 region of SENP5 promoter DNA constitute fragments forming the SENP5/GAU1 triplex. The SENP5/GAU1 triplex subsequently triggers the recruitment of the methyltransferase SET1A to exon 1 of GAU1, leading to the enrichment of H3K4 trimethylation and the activation of SENP5 transcription for driving the tumorigenesis of gastric cancer in vitro and in vivo. Our study reveals a mechanism of PPIA-guided SENP5/GAU1 DNA-lncRNA triplex formation in tumorigenesis and providing a concept in the dynamics of isomerase assisted DNA-RNA hybridization.