O-GlcNAcylation enhances CPS1 catalytic efficiency for ammonia and promotes ureagenesis

Author:

Soria Leandro R.ORCID,Makris Georgios,D’Alessio Alfonso M.,De Angelis Angela,Boffa Iolanda,Pravata Veronica M.ORCID,Rüfenacht Véronique,Attanasio Sergio,Nusco Edoardo,Arena PaolaORCID,Ferenbach Andrew T.,Paris Debora,Cuomo Paola,Motta AndreaORCID,Nitzahn Matthew,Lipshutz Gerald S.ORCID,Martínez-Pizarro Ainhoa,Richard EvaORCID,Desviat Lourdes R.ORCID,Häberle JohannesORCID,van Aalten Daan M. F.ORCID,Brunetti-Pierri NicolaORCID

Abstract

AbstractLife-threatening hyperammonemia occurs in both inherited and acquired liver diseases affecting ureagenesis, the main pathway for detoxification of neurotoxic ammonia in mammals. Protein O-GlcNAcylation is a reversible and nutrient-sensitive post-translational modification using as substrate UDP-GlcNAc, the end-product of hexosamine biosynthesis pathway. Here we show that increased liver UDP-GlcNAc during hyperammonemia increases protein O-GlcNAcylation and enhances ureagenesis. Mechanistically, O-GlcNAcylation on specific threonine residues increased the catalytic efficiency for ammonia of carbamoyl phosphate synthetase 1 (CPS1), the rate-limiting enzyme in ureagenesis. Pharmacological inhibition of O-GlcNAcase, the enzyme removing O-GlcNAc from proteins, resulted in clinically relevant reductions of systemic ammonia in both genetic (hypomorphic mouse model of propionic acidemia) and acquired (thioacetamide-induced acute liver failure) mouse models of liver diseases. In conclusion, by fine-tuned control of ammonia entry into ureagenesis, hepatic O-GlcNAcylation of CPS1 increases ammonia detoxification and is a novel target for therapy of hyperammonemia in both genetic and acquired diseases.

Funder

Fondazione Telethon

MIUR

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary

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