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Chemical genetics and proteome-wide site mapping reveal cysteine MARylation by PARP-7 on immune-relevant protein targets

Kelsie M. Rodriguez, Sara C. Buch-Larsen, Ilsa T. Kirby, Ivan Rodriguez Siordia, David Hutin, Marit Rasmussen, Denis M. Grant, Larry L. David, Jason Matthews, Michael L. Nielsen, Michael S. Cohen

2021eLife81 citationsDOIOpen Access PDF

Abstract

Poly(ADP-ribose) polymerase 7 (PARP-7) has emerged as a critically important member of a large enzyme family that catalyzes ADP-ribosylation in mammalian cells. PARP-7 is a critical regulator of the innate immune response. What remains unclear is the mechanism by which PARP-7 regulates this process, namely because the protein targets of PARP-7 mono-ADP-ribosylation (MARylation) are largely unknown. Here, we combine chemical genetics, proximity labeling, and proteome-wide amino acid ADP-ribosylation site profiling for identifying the direct targets and sites of PARP-7-mediated MARylation in a cellular context. We found that the inactive PARP family member, PARP-13-a critical regulator of the antiviral innate immune response-is a major target of PARP-7. PARP-13 is preferentially MARylated on cysteine residues in its RNA binding zinc finger domain. Proteome-wide ADP-ribosylation analysis reveals cysteine as a major MARylation acceptor of PARP-7. This study provides insight into PARP-7 targeting and MARylation site preference.

Topics & Concepts

Poly ADP ribose polymeraseProteomeBiologyZinc fingerInnate immune systemRegulatorADP-ribosylationComputational biologyCell biologyGeneticsImmune systemBiochemistryPolymeraseTranscription factorEnzymeGeneNAD+ kinasePARP inhibition in cancer therapyToxin Mechanisms and ImmunotoxinsIntegrated Circuits and Semiconductor Failure Analysis
Chemical genetics and proteome-wide site mapping reveal cysteine MARylation by PARP-7 on immune-relevant protein targets | Litcius