E2/E3‐independent ubiquitin‐like protein conjugation by Urm1 is directly coupled to cysteine persulfidation

Keerthiraju Ethiraju Ravichandran; Lars Kaduhr; Bożena Skupień-Rabian; Ekaterina Shvetsova; Mikołaj Sokołowski; Rościsław Krutyhołowa; Dominika Kwaśna; Cindy Brachmann; Sean Xu Qi Lin; Sebastian Guzman Perez; P. Wilk; Manuel Kösters; P. Grudnik; Urszula Jankowska; Sebastian A. Leidel; Raffael Schaffrath; Sebastian Glatt

doi:10.15252/embj.2022111318

E2/E3‐independent ubiquitin‐like protein conjugation by Urm1 is directly coupled to cysteine persulfidation

Keerthiraju Ethiraju Ravichandran(Jagiellonian University), Lars Kaduhr(University of Kassel), Bożena Skupień-Rabian(Jagiellonian University), Ekaterina Shvetsova(University of Bern), Mikołaj Sokołowski(Jagiellonian University), Rościsław Krutyhołowa(Jagiellonian University), Dominika Kwaśna(Jagiellonian University), Cindy Brachmann(University of Kassel), Sean Xu Qi Lin(Max Planck Institute of Biochemistry), Sebastian Guzman Perez(Jagiellonian University), P. Wilk(Jagiellonian University), Manuel Kösters(University of Bern), P. Grudnik(Jagiellonian University), Urszula Jankowska(Jagiellonian University), Sebastian A. Leidel(University of Bern), Raffael Schaffrath(University of Kassel), Sebastian Glatt(Jagiellonian University)

The EMBO Journal

September 14, 2022

10.15252/embj.2022111318

Cited by 21Open Access

Full Text

Abstract

Post-translational modifications by ubiquitin-like proteins (UBLs) are essential for nearly all cellular processes. Ubiquitin-related modifier 1 (Urm1) is a unique UBL, which plays a key role in tRNA anticodon thiolation as a sulfur carrier protein (SCP) and is linked to the noncanonical E1 enzyme Uba4 (ubiquitin-like protein activator 4). While Urm1 has also been observed to conjugate to target proteins like other UBLs, the molecular mechanism of its attachment remains unknown. Here, we reconstitute the covalent attachment of thiocarboxylated Urm1 to various cellular target proteins in vitro, revealing that, unlike other known UBLs, this process is E2/E3-independent and requires oxidative stress. Furthermore, we present the crystal structures of the peroxiredoxin Ahp1 before and after the covalent attachment of Urm1. Surprisingly, we show that urmylation is accompanied by the transfer of sulfur to cysteine residues in the target proteins, also known as cysteine persulfidation. Our results illustrate the role of the Uba4-Urm1 system as a key evolutionary link between prokaryotic SCPs and the UBL modifications observed in modern eukaryotes.

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