Author
Listed:
- Fangliang Zhang
(University of Pennsylvania School of Veterinary Medicine
University of Miami School of Medicine, and Sylvester Comprehensive Cancer Center)
- Devang M. Patel
(University of Miami School of Medicine, and Sylvester Comprehensive Cancer Center)
- Kristen Colavita
(University of Pennsylvania School of Veterinary Medicine)
- Irina Rodionova
(Sanford Burnham Medical Research Institute)
- Brian Buckley
(Roswell Park Cancer Institute)
- David A. Scott
(Sanford Burnham Medical Research Institute)
- Akhilesh Kumar
(University of Miami School of Medicine, and Sylvester Comprehensive Cancer Center)
- Svetlana A. Shabalina
(National Center for Biotechnology Information, NLM, NIH)
- Sougata Saha
(University of Pennsylvania School of Veterinary Medicine
Tezpur University)
- Mikhail Chernov
(Roswell Park Cancer Institute)
- Andrei L. Osterman
(Sanford Burnham Medical Research Institute)
- Anna Kashina
(University of Pennsylvania School of Veterinary Medicine)
Abstract
Protein arginylation is an emerging post-translational modification that targets a number of metabolic enzymes; however, the mechanisms and downstream effects of this modification are unknown. Here we show that lack of arginylation renders cells vulnerable to purine nucleotide synthesis inhibitors and affects the related glycine and serine biosynthesis pathways. We show that the purine nucleotide biosynthesis enzyme PRPS2 is selectively arginylated, unlike its close homologue PRPS1, and that arginylation of PRPS2 directly facilitates its biological activity. Moreover, selective arginylation of PRPS2 but not PRPS1 is regulated through a coding sequence-dependent mechanism that combines elements of mRNA secondary structure with lysine residues encoded near the N-terminus of PRPS1. This mechanism promotes arginylation-specific degradation of PRPS1 and selective retention of arginylated PRPS2 in vivo. We therefore demonstrate that arginylation affects both the activity and stability of a major metabolic enzyme.
Suggested Citation
Fangliang Zhang & Devang M. Patel & Kristen Colavita & Irina Rodionova & Brian Buckley & David A. Scott & Akhilesh Kumar & Svetlana A. Shabalina & Sougata Saha & Mikhail Chernov & Andrei L. Osterman &, 2015.
"Arginylation regulates purine nucleotide biosynthesis by enhancing the activity of phosphoribosyl pyrophosphate synthase,"
Nature Communications, Nature, vol. 6(1), pages 1-9, November.
Handle:
RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8517
DOI: 10.1038/ncomms8517
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