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Literature DB >> 27562167

NADPH oxidase-derived H2O2 subverts pathogen signaling by oxidative phosphotyrosine conversion to PB-DOPA.

Luis A Alvarez¹, Lidija Kovačič², Javier Rodríguez³, Jan-Hendrik Gosemann¹, Malgorzata Kubica², Gratiela G Pircalabioru², Florian Friedmacher¹, Ada Cean⁴, Alina Ghişe⁴, Mihai B Sărăndan⁴, Prem Puri¹, Simon Daff⁵, Erika Plettner⁶, Alex von Kriegsheim³, Billy Bourke⁷, Ulla G Knaus⁷.

Abstract

Strengthening the host immune system to fully exploit its potential as antimicrobial defense is vital in countering antibiotic resistance. Chemical compounds released during bidirectional host-pathogen cross-talk, which follows a sensing-response paradigm, can serve as protective mediators. A potent, diffusible messenger is hydrogen peroxide (H2O2), but its consequences on extracellular pathogens are unknown. Here we show that H2O2, released by the host on pathogen contact, subverts the tyrosine signaling network of a number of bacteria accustomed to low-oxygen environments. This defense mechanism uses heme-containing bacterial enzymes with peroxidase-like activity to facilitate phosphotyrosine (p-Tyr) oxidation. An intrabacterial reaction converts p-Tyr to protein-bound dopa (PB-DOPA) via a tyrosinyl radical intermediate, thereby altering antioxidant defense and inactivating enzymes involved in polysaccharide biosynthesis and metabolism. Disruption of bacterial signaling by DOPA modification reveals an infection containment strategy that weakens bacterial fitness and could be a blueprint for antivirulence approaches.

Entities: Chemical Disease

Keywords: DOPA; NADPH oxidase; bacterial tyrosine phosphorylation; mucosal immunity; reactive oxygen species (ROS)

Mesh：

Substances：

Year: 2016 PMID： 27562167 PMCID： PMC5027431 DOI： 10.1073/pnas.1605443113

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

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