The α-proteobacteria Wolbachia pipientis protein disulfide machinery has a regulatory mechanism absent in γ-proteobacteria

The α-proteobacteria Wolbachia pipientis protein disulfide machinery has a regulatory mechanism absent in γ-proteobacteria

The α-proteobacterium Wolbachia pipientis infects more than 65% of insect species worldwide and manipulates the host reproductive machinery to enable its own survival. It can live in mutualistic relationships with hosts that cause human disease, including mosquitoes that carry the Dengue virus. Like...

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Published in:PloS one Vol. 8; no. 11; p. e81440
Main Authors: Walden, Patricia M, Halili, Maria A, Archbold, Julia K, Lindahl, Fredrik, Fairlie, David P, Inaba, Kenji, Martin, Jennifer L
Format: Journal Article
Language:English
Published: United States Public Library of Science 25-11-2013
Public Library of Science (PLoS)
Subjects:
Amino Acid Sequence
Aquatic insects
Bacteria
Bacterial Proteins - chemistry
Bacterial Proteins - metabolism
Base Sequence
Biology
Cascade flow
Catalysis
Chemical bonds
Crystal structure
Culicidae
Cysteine
Dengue
Dengue fever
Disulfide bonds
Disulfides - metabolism
DNA Primers
E coli
Enzymes
Escherichia coli
Gammaproteobacteria - metabolism
Genomes
Insects
Integrals
Machinery and equipment
Males
Membrane proteins
Molecular Sequence Data
Mosquitoes
Oxidation
Oxidation-Reduction
Proteins
Proteobacteria
Quinones
Regulatory mechanisms (biology)
Relay systems
Sequence Homology, Amino Acid
Substrates
Vector-borne diseases
Viral diseases
Viruses
Wolbachia
Wolbachia - metabolism
Wolbachia pipientis
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Summary:The α-proteobacterium Wolbachia pipientis infects more than 65% of insect species worldwide and manipulates the host reproductive machinery to enable its own survival. It can live in mutualistic relationships with hosts that cause human disease, including mosquitoes that carry the Dengue virus. Like many other bacteria, Wolbachia contains disulfide bond forming (Dsb) proteins that introduce disulfide bonds into secreted effector proteins. The genome of the Wolbachia strain wMel encodes two DsbA-like proteins sharing just 21% sequence identity to each other, α-DsbA1 and α-DsbA2, and an integral membrane protein, α-DsbB. α-DsbA1 and α-DsbA2 both have a Cys-X-X-Cys active site that, by analogy with Escherichia coli DsbA, would need to be oxidized to the disulfide form to serve as a disulfide bond donor toward substrate proteins. Here we show that the integral membrane protein α-DsbB oxidizes α-DsbA1, but not α-DsbA2. The interaction between α-DsbA1 and α-DsbB is very specific, involving four essential cysteines located in the two periplasmic loops of α-DsbB. In the electron flow cascade, oxidation of α-DsbA1 by α-DsbB is initiated by an oxidizing quinone cofactor that interacts with the cysteine pair in the first periplasmic loop. Oxidizing power is transferred to the second cysteine pair, which directly interacts with α-DsbA1. This reaction is inhibited by a non-catalytic disulfide present in α-DsbA1, conserved in other α-proteobacterial DsbAs but not in γ-proteobacterial DsbAs. This is the first characterization of the integral membrane protein α-DsbB from Wolbachia and reveals that the non-catalytic cysteines of α-DsbA1 regulate the redox relay system in cooperation with α-DsbB.
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Conceived and designed the experiments: PMW KI JLM. Performed the experiments: PMW MAH FL. Analyzed the data: PMW MAH JKA FL DPF KI JLM. Contributed reagents/materials/analysis tools: DPF KI JLM. Wrote the paper: PMW JKA KI JLM. Contributed critical comments on the draft of the manuscript: PMW MAH JKA FL DPF KI JLM.
Competing Interests: The authors have declared that no competing interests exist.
Current address: Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Aoba-ku, Sendai, Japan
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0081440