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IGF2BP3 promotes mRNA degradation through internal m 7 G modification.

Chang LiuXiaoyang DouYutao ZhaoLinda ZhangLi-Sheng ZhangQing DaiYongbo LiuTong WuYu XiaoChuan He
Published in: Nature communications (2024)
Recent studies have suggested that mRNA internal m 7 G and its writer protein METTL1 are closely related to cell metabolism and cancer regulation. Here, we identify that IGF2BP family proteins IGF2BP1-3 can preferentially bind internal mRNA m 7 G. Such interactions, especially IGF2BP3 with m 7 G, could promote the degradation of m 7 G target transcripts in cancer cells. IGF2BP3 is more responsive to changes of m 7 G modification, while IGF2BP1 prefers m 6 A to stabilize the bound transcripts. We also demonstrate that p53 transcript, TP53, is m 7 G-modified at its 3'UTR in cancer cells. In glioblastoma, the methylation level and the half lifetime of the modified transcript could be modulated by tuning IGF2BP3, or by site-specific targeting of m 7 G through a dCas13b-guided system, resulting in modulation of cancer progression and chemosensitivity.
Keyphrases
  • binding protein
  • pi k akt
  • growth hormone
  • papillary thyroid
  • dna methylation
  • single cell
  • gene expression
  • stem cells
  • mesenchymal stem cells
  • small molecule
  • lymph node metastasis