Acetylation regulates the oligomerization state and activity of RNase J, the Helicobacter pylori major ribonuclease

Alejandro Tejada-Arranz; Aleksei Lulla; Maxime Bouilloux-Lafont; Evelyne Turlin; Xue-Yuan Pei; Thibaut Douché; Mariette Matondo; Allison H. Williams; Bertrand Raynal; Ben F. Luisi; Hilde De Reuse

doi:10.1038/s41467-023-43825-8

Nature Communications (Dec 2023)

Acetylation regulates the oligomerization state and activity of RNase J, the Helicobacter pylori major ribonuclease

Alejandro Tejada-Arranz,
Aleksei Lulla,
Maxime Bouilloux-Lafont,
Evelyne Turlin,
Xue-Yuan Pei,
Thibaut Douché,
Mariette Matondo,
Allison H. Williams,
Bertrand Raynal,
Ben F. Luisi,
Hilde De Reuse

Affiliations

Alejandro Tejada-Arranz: Département de Microbiologie, Unité Pathogenèse de Helicobacter, UMR CNRS 6047, Institut Pasteur
Aleksei Lulla: Department of Biochemistry, University of Cambridge
Maxime Bouilloux-Lafont: Département de Microbiologie, Unité Pathogenèse de Helicobacter, UMR CNRS 6047, Institut Pasteur
Evelyne Turlin: Département de Microbiologie, Unité Pathogenèse de Helicobacter, UMR CNRS 6047, Institut Pasteur
Xue-Yuan Pei: Department of Biochemistry, University of Cambridge
Thibaut Douché: Plateforme Protéomique, Unité de Spectrométrie de Masse pour la Biologie, C2RT, USR CNRS 2000, Institut Pasteur
Mariette Matondo: Plateforme Protéomique, Unité de Spectrométrie de Masse pour la Biologie, C2RT, USR CNRS 2000, Institut Pasteur
Allison H. Williams: University of California San Francisco, Cellular Molecular Pharmacology
Bertrand Raynal: Département de Biologie structurale et chimie, Plateforme de biophysique moléculaire, Institut Pasteur
Ben F. Luisi: Department of Biochemistry, University of Cambridge
Hilde De Reuse: Département de Microbiologie, Unité Pathogenèse de Helicobacter, UMR CNRS 6047, Institut Pasteur

DOI: https://doi.org/10.1038/s41467-023-43825-8
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 15

Abstract

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Abstract In the gastric pathogen Helicobacter pylori, post-transcriptional regulation relies strongly on the activity of the essential ribonuclease RNase J. Here, we elucidated the crystal and cryo-EM structures of RNase J and determined that it assembles into dimers and tetramers in vitro. We found that RNase J extracted from H. pylori is acetylated on multiple lysine residues. Alanine substitution of several of these residues impacts on H. pylori morphology, and thus on RNase J function in vivo. Mutations of Lysine 649 modulates RNase J oligomerization in vitro, which in turn influences ribonuclease activity in vitro. Our structural analyses of RNase J reveal loops that gate access to the active site and rationalizes how acetylation state of K649 can influence activity. We propose acetylation as a regulatory level controlling the activity of RNase J and its potential cooperation with other enzymes of RNA metabolism in H. pylori.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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