Biology (Dec 2023)

Low-Dose Ionizing Radiation-Crosslinking Immunoprecipitation (LDIR-CLIP) Identified Irradiation-Sensitive RNAs for RNA-Binding Protein HuR-Mediated Decay

  • Ji Won Lee,
  • Hyejin Mun,
  • Jeong-Hyun Kim,
  • Seungbeom Ko,
  • Young-Kook Kim,
  • Min Ji Shim,
  • Kyungmin Kim,
  • Chul Woong Ho,
  • Hyun Bong Park,
  • Meesun Kim,
  • Chaeyoung Lee,
  • Si Ho Choi,
  • Jung-Woong Kim,
  • Ji-Hoon Jeong,
  • Je-Hyun Yoon,
  • Kyung-Won Min,
  • Tae Gen Son

DOI
https://doi.org/10.3390/biology12121533
Journal volume & issue
Vol. 12, no. 12
p. 1533

Abstract

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Although ionizing radiation (IR) is widely used for therapeutic and research purposes, studies on low-dose ionizing radiation (LDIR) are limited compared with those on other IR approaches, such as high-dose gamma irradiation and ultraviolet irradiation. High-dose IR affects DNA damage response and nucleotide–protein crosslinking, among other processes; however, the molecular consequences of LDIR have been poorly investigated. Here, we developed a method to profile RNA species crosslinked to an RNA-binding protein, namely, human antigen R (HuR), using LDIR and high-throughput RNA sequencing. The RNA fragments isolated via LDIR-crosslinking and immunoprecipitation sequencing were crosslinked to HuR and protected from RNase-mediated digestion. Upon crosslinking HuR to target mRNAs such as PAX6, ZFP91, NR2F6, and CAND2, the transcripts degraded rapidly in human cell lines. Additionally, PAX6 and NR2F6 downregulation mediated the beneficial effects of LDIR on cell viability. Thus, our approach provides a method for investigating post-transcriptional gene regulation using LDIR.

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