Cell Death Discovery (Jan 2023)

PRMT5-mediated regulatory arginine methylation of RIPK3

  • Chanchal Chauhan,
  • Ana Martinez-Val,
  • Rainer Niedenthal,
  • Jesper Velgaard Olsen,
  • Alexey Kotlyarov,
  • Simon Bekker-Jensen,
  • Matthias Gaestel,
  • Manoj B. Menon

DOI
https://doi.org/10.1038/s41420-023-01299-z
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 9

Abstract

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Abstract The TNF receptor-interacting protein kinases (RIPK)-1 and 3 are regulators of extrinsic cell death response pathways, where RIPK1 makes the cell survival or death decisions by associating with distinct complexes mediating survival signaling, caspase activation or RIPK3-dependent necroptotic cell death in a context-dependent manner. Using a mass spectrometry-based screen to find new components of the ripoptosome/necrosome, we discovered the protein-arginine methyltransferase (PRMT)-5 as a direct interaction partner of RIPK1. Interestingly, RIPK3 but not RIPK1 was then found to be a target of PRMT5-mediated symmetric arginine dimethylation. A conserved arginine residue in RIPK3 (R486 in human, R415 in mouse) was identified as the evolutionarily conserved target for PRMT5-mediated symmetric dimethylation and the mutations R486A and R486K in human RIPK3 almost completely abrogated its methylation. Rescue experiments using these non-methylatable mutants of RIPK3 demonstrated PRMT5-mediated RIPK3 methylation to act as an efficient mechanism of RIPK3-mediated feedback control on RIPK1 activity and function. Therefore, this study reveals PRMT5-mediated RIPK3 methylation as a novel modulator of RIPK1-dependent signaling.