Reversal of tyrosine-linked ADP-ribosylation by ARH3 and PARG

ADP-ribosylation is an ancient posttranslational modification with exceptional versatility in terms of breadth of modification targets including at least seven different amino acid side chains, various moieties on nucleic acids, and a variety of small chemical compounds. The spatiotemporal signaling dynamic of the different modification variations is tightly regulated and depends on the writers, erases, and readers of each type. Among these, tyrosine ADP-ribosylation (Tyr-ADPr) has been consistently detected as a novel modification type, but systematic analysis of its potential physiological role, modification establishment, and reversal are still lacking. Here we present a re-analysis of recent ADP-ribosylome data and show that Tyr-ADPr sites are conserved and enriched among ribosome biogenesis and mRNA processing proteins and that these sites are affected by the status of the (ADP-ribosyl)hydrolase ARH3. To facilitate the study of Tyr-ADPr, we establish methodologies for the synthesis of well-defined Tyr-ADPr peptides and with these could show that Tyr-ADPr is reversed both by ARH3 and PARG enzymes. Together, our work lays the foundation for the future exploration of the Tyr-ADPr.