Your search keyword '"ADPribosylation"' showing total 3 results

1. Capturing Legionella pneumophila effector enzymes using a ubiquitin derived photo-activatable probe

Author

Max S. Kloet and Gerbrand J. van der Heden van Noort

Subjects

ADPRibosylation, ubiquitination, covalent probes, post translational modification (PTM), Legionella, Biology (General), QH301-705.5

Abstract

Upon infection of host cells the Legionella pneumophila bacterium releases a multitude of effector enzymes into the host’s cytoplasm that manipulate cellular host pathways, including the host-ubiquitination pathways. The effectors belonging to the SidE-family are involved in non-canonical phosphoribosyl serine ubiquitination (PR-ubiquitination) of host substrate proteins. This results in the recruitment of ER-remodeling proteins and the formation of a Legionella-containing vacuole which is crucial in the onset of legionnaires disease. PR-ubiquitination is a dynamic process reversed by other Legionella effectors called Dups. During PR-Ubiquitin phosphodiester hydrolysis Dups form a covalent intermediate with the phosphoribosyl ubiquitylated protein using its active site His67 residue. We envisioned that covalent probes to target Legionella effectors could be of value to study these effectors and contribute to deciphering the complex biology of Legionella infection. Hence we effectively installed a photo-activatable pyridinium warhead on the 5′-OH of triazole-linked ribosylated ubiquitin allowing crosslinking of the probe to the catalytic histidine residues in Legionella SidE or Dup enzymes. In vitro tests on recombinantly expressed DupA and SdeAPDE revealed that the probe was able to capture the enzymes covalently upon photo-activation.

Published

2024

2. Development of ADPribosyl Ubiquitin Analogues to Study Enzymes Involved in Legionella Infection.

Author

Kim, Robbert Q., Misra, Mohit, Gonzalez, Alexis, Tomašković, Ines, Shin, Donghyuk, Schindelin, Hermann, Filippov, Dmitri V., Ovaa, Huib, Đikić, Ivan, and Heden van Noort, Gerbrand J.

Subjects

*UBIQUITIN, *LEGIONELLA, *LEGIONNAIRES' disease, *UBIQUITINATION, *LEGIONELLA pneumophila, *ENZYMES

Abstract

Legionnaires' disease is caused by infection with the intracellularly replicating Gram‐negative bacterium Legionella pneumophila. This pathogen uses an unconventional way of ubiquitinating host proteins by generating a phosphoribosyl linkage between substrate proteins and ubiquitin by making use of an ADPribosylated ubiquitin (UbADPr) intermediate. The family of SidE effector enzymes that catalyze this reaction is counteracted by Legionella hydrolases, which are called Dups. This unusual ubiquitination process is important for Legionella proliferation and understanding these processes on a molecular level might prove invaluable in finding new treatments. Herein, a modular approach is used for the synthesis of triazole‐linked UbADPr, and analogues thereof, and their affinity towards the hydrolase DupA is determined and hydrolysis rates are compared to natively linked UbADPr. The inhibitory effects of modified Ub on the canonical eukaryotic E1‐enzyme Uba1 are investigated and rationalized in the context of a high‐resolution crystal structure reported herein. Finally, it is shown that synthetic UbADPr analogues can be used to effectively pull‐down overexpressed DupA from cell lysate. [ABSTRACT FROM AUTHOR]

Published

2021

3. Development of ADPribosyl ubiquitin analogues to study enzymes involved in legionella infection

Author

Donghyuk Shin, Gerbrand J. van der Heden van Noort, Ivan Đikić, Hermann Schindelin, Ines Tomašković, Dmitri V. Filippov, Robbert Q. Kim, Alexis Gonzalez, Mohit Misra, and Huib Ovaa

Subjects

Legionella, Hydrolases, Context (language use), Ubiquitin-Activating Enzymes, 010402 general chemistry, chemistry, 01 natural sciences, Legionella pneumophila, Catalysis, ADP-Ribosylation, ADPribosylation, Ubiquitin, Bacterial Proteins, Hydrolase, ubiquitin, post-translational modifications, Humans, chemistry.chemical_classification, biology, Full Paper, 010405 organic chemistry, Effector, Organic Chemistry, Ubiquitination, General Chemistry, UBA1, Full Papers, biology.organism_classification, 0104 chemical sciences, 3. Good health, Enzyme, HEK293 Cells, Biochemistry, click chemistry, biology.protein, Legionnaires' Disease

Abstract

Legionnaires’ disease is caused by infection with the intracellularly replicating Gram‐negative bacterium Legionella pneumophila. This pathogen uses an unconventional way of ubiquitinating host proteins by generating a phosphoribosyl linkage between substrate proteins and ubiquitin by making use of an ADPribosylated ubiquitin (UbADPr) intermediate. The family of SidE effector enzymes that catalyze this reaction is counteracted by Legionella hydrolases, which are called Dups. This unusual ubiquitination process is important for Legionella proliferation and understanding these processes on a molecular level might prove invaluable in finding new treatments. Herein, a modular approach is used for the synthesis of triazole‐linked UbADPr, and analogues thereof, and their affinity towards the hydrolase DupA is determined and hydrolysis rates are compared to natively linked UbADPr. The inhibitory effects of modified Ub on the canonical eukaryotic E1‐enzyme Uba1 are investigated and rationalized in the context of a high‐resolution crystal structure reported herein. Finally, it is shown that synthetic UbADPr analogues can be used to effectively pull‐down overexpressed DupA from cell lysate., Modular modifications: Analogues of ADPribosylated ubiquitin, including a nonhydrolyzable methylenebisphosphonate version, are constructed and subsequently applied to investigate (de‐)ubiquitinating enzymes involved in Legionella infection. These probes are used in the study of the bacterial effector DupA and the human ubiquitin activating E1 enzyme.

Published

2020