Litcius/Paper detail

HP1021 is a redox switch protein identified in <i>Helicobacter pylori</i>

Piotr Szczepanowski, Mateusz Noszka, Dorota Żyła-Uklejewicz, Fabian Pikuła, Malgorzata Nowaczyk‐Cieszewska, Artur Krężel, Kerstin Stingl, Anna Zawilak‐Pawlik

2021Nucleic Acids Research20 citationsDOIOpen Access PDF

Abstract

Helicobacter pylori is a gram-negative, microaerophilic, pathogenic bacterium and a widespread colonizer of humans. H. pylori has developed mechanisms that enable it to overcome the harsh environment of the human stomach, including reactive oxygen species (ROS). Interestingly, up to now no typical regulator dedicated to the oxidative-stress response has been discovered. In this work, we reveal that the inhibitor of replication initiation HP1021 functions as a redox switch protein in H. pylori and plays an important role in response to oxidative stress of the gastric pathogen. Each of the two predicted HP1021 domains contains three cysteine residues. We show that the cysteine residues of HP1021 are sensitive to oxidation both in vitro and in vivo, and we demonstrate that HP1021 DNA-binding activity to oriC depends on the redox state of the protein. Moreover, Zn2+ modulates HP1021 affinity towards oriC template DNA. Transcription analysis of selected H. pylori genes by RT-qPCR indicated that HP1021 is directly involved in the oxygen-dependent control of H. pylori fecA3 and gluP genes, which are implicated in response to oxidative stress. In conclusion, HP1021 is a redox switch protein and could be a target for H. pylori control strategies.

Topics & Concepts

BiologyHelicobacter pyloriOxidative stressCysteineReactive oxygen speciesGeneMicroaerophileOxidative phosphorylationRegulatorDNABiochemistryCell biologyBacteriaGeneticsEnzymeHelicobacter pylori-related gastroenterology studiesVeterinary medicine and infectious diseasesRNA modifications and cancer