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ADAR1-mediated RNA editing of SCD1 drives drug resistance and self-renewal in gastric cancer.

Tin-Lok WongJia-Jian LohShixun LuHelen Y N YanHoi Cheong SiuRen XiDessy ChanMax J F KamLei ZhouMan TongJohn A CoplandLeilei ChenJing-Ping YunSuet Yi LeungStephianie Ma
Published in: Nature communications (2023)
Targetable drivers governing 5-fluorouracil and cisplatin (5FU + CDDP) resistance remain elusive due to the paucity of physiologically and therapeutically relevant models. Here, we establish 5FU + CDDP resistant intestinal subtype GC patient-derived organoid lines. JAK/STAT signaling and its downstream, adenosine deaminases acting on RNA 1 (ADAR1), are shown to be concomitantly upregulated in the resistant lines. ADAR1 confers chemoresistance and self-renewal in an RNA editing-dependent manner. WES coupled with RNA-seq identify enrichment of hyper-edited lipid metabolism genes in the resistant lines. Mechanistically, ADAR1-mediated A-to-I editing on 3'UTR of stearoyl-CoA desaturase (SCD1) increases binding of KH domain-containing, RNA-binding, signal transduction-associated 1 (KHDRBS1), thereby augmenting SCD1 mRNA stability. Consequently, SCD1 facilitates lipid droplet formation to alleviate chemotherapy-induced ER stress and enhances self-renewal through increasing β-catenin expression. Pharmacological inhibition of SCD1 abrogates chemoresistance and tumor-initiating cell frequency. Clinically, high proteomic level of ADAR1 and SCD1, or high SCD1 editing/ADAR1 mRNA signature score predicts a worse prognosis. Together, we unveil a potential target to circumvent chemoresistance.
Keyphrases
  • crispr cas
  • single cell
  • rna seq
  • binding protein
  • fatty acid
  • chemotherapy induced
  • nucleic acid
  • poor prognosis
  • high throughput
  • stem cells
  • dna binding
  • cell therapy
  • dna methylation
  • gas chromatography