AnkB, a Periplasmic Ankyrin-Like Protein in
            <i>Pseudomonas aeruginosa</i>
            , Is Required for Optimal Catalase B (KatB) Activity and Resistance to Hydrogen Peroxide

Howell, Michael L.; Alsabbagh, Eyad; Ma, Ju-Fang; Ochsner, Urs A.; Klotz, Martin G.; Beveridge, Terry J.; Blumenthal, Kenneth M.; Niederhoffer, Eric C.; Morris, Randall E.; Needham, David; Dean, Gary E.; Wani, Maqsood A.; Hassett, Daniel J.

doi:10.1128/jb.182.16.4545-4556.2000

Cited by 55 publications

(53 citation statements)

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“…In eukaryotes, they can be involved in many functions, including cell cycle regulation and cytoskeleton interactions (Voronin & Kiseleva, 2007;Wu et al, 2004), making them candidates for mediating Wolbachia-host interaction and host reproductive phenotypes (Foster et al, 2005;Iturbe-Ormaetxe et al, 2005a). In other symbiotic relationships, ankyrin repeat genes have been shown to bind to host chromatin in A. phagocytophilum (Caturegli et al, 2000;Park et al, 2004), have a role in hydrogen peroxide resistance of Pseudomonas aeruginosa (Howell et al, 2000) and be key in establishing a plantbacterium relationship between Lotus japonicus and Mesorhizobium loti (Kumagai et al, 2007).…”

Section: Ankyrin Repeat Proteins and Confirmation Of Mcgh Resultsmentioning

confidence: 99%

Extensive genomic diversity of closely related Wolbachia strains

et al. 2009

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Using microarray-based comparative genome hybridization (mCGH), the genomic content of Wolbachia pipientis wMel from Drosophila melanogaster was compared to the closely related Wolbachia from D. innubila (wInn), D. santomea (wSan), and three strains from D. simulans (wAu, wRi, wSim). A large number of auxiliary genes are identified in these five strains, with most absent/ divergent genes being unique to a given strain. Each strain caused an average of~60 genes to be removed from the core genome. As such, these organisms do not appear to have the streamlined genomes expected of obligate intracellular bacteria. Prophage, hypothetical and ankyrin repeat genes are over-represented in the absent/divergent genes, with 21-87 % of absent/divergent genes coming from prophage regions. The only wMel region absent/divergent in all five query strains is that containing WD_0509 to WD_0511, including a DNA mismatch repair protein MutL-2, a degenerate RNase, and a conserved hypothetical protein. A region flanked by the two portions of the WO-B prophage in wMel is found in four of the five Wolbachia strains as well as on a plasmid of a rickettsial endosymbiont of Ixodes scapularis, suggesting lateral gene transfer between these two obligate intracellular species. Overall, these insect-associated Wolbachia have highly mosaic genomes, with lateral gene transfer playing an important role in their diversity and evolution. INTRODUCTIONWolbachia bacteria are common obligate intracellular endosymbionts that infect a wide variety of invertebrates, including arthropods and filarial nematodes. The arthropod-infecting Wolbachia strains are maternally inherited and exert unusual effects on host reproduction, including: (1) parthenogenesis, whereby infected virgin females produce infected female offspring, (2) male killing, whereby infected male embryos fail to develop, (3) feminization, whereby genetic males develop into reproductively capable females, and (4) cytoplasmic incompatibility, the most common phenotype, whereby the offspring of uninfected females and infected males fail to develop (Stouthamer et al., 1999;Werren et al., 2008). These phenotypes increase the number of infected hosts within a population, promoting the frequency of Wolbachia. Although insect-associated Wolbachia are typically considered reproductive parasites, some Abbreviation: mCGH, microarray comparative genome hybridization.3These authors contributed equally to this paper. et al., 2008). In addition to the above nomenclature, another convention has been proposed that combines all genes found in .1 % of strains into a species genome, and any genes in ,1 % of strains are considered of foreign origin or on the decline (Boucher et al., 2001;Lan & Reeves, 2000).In order to examine the core genome and the genetic flux between W. pipientis strains, we examined the genomic content of five strains using microarray-based comparative genomic hybridization (mCGH) on a Wolbachia microarray. DNAs from reference and query organisms are differentially labelled and competitive...

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Section: Ankyrin Repeat Proteins and Confirmation Of Mcgh Resultsmentioning

confidence: 99%

Extensive genomic diversity of closely related Wolbachia strains

et al. 2009

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“…We have recently shown that KatB is required for optimal H 2 O 2 resistance and that KatB activity is increased ϳ50-fold in its presence (4,13). Because KatB can be detected in the cytoplasmic membrane and periplasmic fractions (13), it could act to protect H 2 O 2 -sensitive respiratory chain components. Optimal KatB-mediated protection also requires AnkB, a cytoplasmic membrane-periplasmic ankyrin-like protein that we believe anchors KatB to the inner membrane and/or stabilizes it is the periplasmic space (13).…”

Section: Discussionmentioning

confidence: 99%

“…One likely reason for the dramatic H 2 O 2 sensitivity of the oxyR mutant is that each OxyR-regulated gene product contributes some measure of protection against it (17). We have recently shown that KatB is required for optimal H 2 O 2 resistance and that KatB activity is increased ϳ50-fold in its presence (4,13). Because KatB can be detected in the cytoplasmic membrane and periplasmic fractions (13), it could act to protect H 2 O 2 -sensitive respiratory chain components.…”

Section: Discussionmentioning

confidence: 99%

“…Because KatB can be detected in the cytoplasmic membrane and periplasmic fractions (13), it could act to protect H 2 O 2 -sensitive respiratory chain components. Optimal KatB-mediated protection also requires AnkB, a cytoplasmic membrane-periplasmic ankyrin-like protein that we believe anchors KatB to the inner membrane and/or stabilizes it is the periplasmic space (13). Although AhpB and AhpCF are predicted to encode proteins that are important in the detoxification of organic hydroperoxides, both AhpB and AhpCF appear to be important for some resistance to H 2 O 2 when they are overexpressed in an oxyR mutant (Table 3 (15a), and E. coli oxyR mutants require catalase for normal aerobic growth.…”

Section: Discussionmentioning

confidence: 99%

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A Protease-Resistant Catalase, KatA, Released upon Cell Lysis during Stationary Phase Is Essential for Aerobic Survival of a Pseudomonas aeruginosa oxyR Mutant at Low Cell Densities

et al. 2000

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A Pseudomonas aeruginosa oxyR mutant was dramatically sensitive to H 2 O 2 , despite possessing wild-type catalase activity. Oxygen-dependent oxyR phenotypes also included an inability to survive aerobic serial dilution in Luria broth and to resist aminoglycosides. Plating the oxyR mutant after serial dilution in its own spent culture supernatant, which contained the major catalase KatA, or under anaerobic conditions allowed for survival. KatA was resistant to sodium dodecyl sulfate, proteinase K, pepsin, trypsin, chymotrypsin and the neutrophil protease cathepsin G. When provided in trans and expressed constitutively, the OxyR-regulated genes katB, ahpB, and ahpCF could not restore both the serial dilution defect and H 2 O 2 resistance; only oxyR itself could do so. The aerobic dilution defect could be complemented, in part, by only ahpB and ahpCF, suggesting that the latter gene products could possess a catalase-like activity. Aerobic Luria broth was found to generate ϳ1.2 M H 2 O 2 min ؊1 via autoxidation, a level sufficient to kill serially diluted oxyR and oxyR katA bacteria and explain the molecular mechanism behind the aerobic serial dilution defect. Taken together, our results indicate that inactivation of OxyR renders P. aeruginosa exquisitely sensitive to both H 2 O 2 and aminoglycosides, which are clinically and environmentally important antimicrobials.The major response of Escherichia coli to hydrogen peroxide (H 2 O 2 ) is governed by a 34-kDa transactivator, OxyR (5,6,30,31). OxyR positively regulates katG (encoding hydroperoxidase I), gorA (encoding glutathione reductase), ahpCF (encoding alkyl hydroperoxide reductase), dps (encoding a nonspecific DNA-binding protein) (1, 5, 6), and fur (encoding ferric uptake regulatory protein) (31). Each of these genes is important in combating H 2 O 2 -mediated stress. OxyR acts as a transcriptional autorepressor under noninducing conditions. However, in the presence of its inducer, H 2 O 2 , an intramolecular disulfide bond that activates OxyR is formed, allowing it to then govern transcription of OxyR-dependent promoters (24,26).In contrast to the case for E. coli, genes under OxyR control in Pseudomonas aeruginosa include the katB-ankB operon, ahpB, and ahpCF (17). These genes encode catalase B (KatB), an ankyrin-like protein that is necessary for optimal KatB activity (AnkB), and two alkyl hydroperoxide reductases, AhpB and AhpCF, respectively (17). In this work, we report dramatic sensitivity of a P. aeruginosa oxyR mutant to H 2 O 2 and aminoglycosides, despite possessing wild-type catalase activity. Growth of serially diluted oxyR organisms under aerobic conditions was found to require the major housekeeping catalase, KatA, which was released into the extracellular milieu upon cell lysis. KatA was found to be resistant to a number of proteases, including the human neutrophil serine protease cathepsin G. Our data suggest that released KatA could remain for extended periods, especially in P. aeruginosa biofilms of environmental, industrial, and clinical i...

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“…Although motility has not been demonstrated with Ehrlichia spp., Ecaj_0062 exhibits similarity (E ϭ 5 ϫ 10 Ϫ5 ) to RickA proteins, suggesting that a mechanism of interacting with the cytoskeleton exists in this pathogen. Furthermore, it has been shown in Pseudomonas aeruginosa that AnkB, an ankyrin repeat-containing protein, is essential for optimal activity of periplasmic catalase (28). It is therefore reasonable to propose that these ankyrin-containing proteins may play a significant role in the adaptation of the pathogen to the host cell, mediating a series of interactions or reprogramming of the host cell functions.…”

Section: Vol 188 2006mentioning

confidence: 99%

The Genome of the Obligately Intracellular Bacterium Ehrlichia canis Reveals Themes of Complex Membrane Structure and Immune Evasion Strategies

et al. 2006

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Ehrlichia canis, a small obligately intracellular, tick-transmitted, gram-negative, ␣-proteobacterium, is the primary etiologic agent of globally distributed canine monocytic ehrlichiosis. Complete genome sequencing revealed that the E. canis genome consists of a single circular chromosome of 1,315,030 bp predicted to encode 925 proteins, 40 stable RNA species, 17 putative pseudogenes, and a substantial proportion of noncoding sequence (27%). Interesting genome features include a large set of proteins with transmembrane helices and/or signal sequences and a unique serine-threonine bias associated with the potential for O glycosylation that was prominent in proteins associated with pathogen-host interactions. Furthermore, two paralogous protein families associated with immune evasion were identified, one of which contains poly(G-C) tracts, suggesting that they may play a role in phase variation and facilitation of persistent infections. Genes associated with pathogen-host interactions were identified, including a small group encoding proteins (n ‫؍‬ 12) with tandem repeats and another group encoding proteins with eukaryote-like ankyrin domains (n ‫؍‬ 7).Ehrlichia spp., ␣-proteobacteria that belong to the order Rickettsiales, cause diseases of veterinary importance and are also responsible for emerging life-threatening anthropozoonoses. E. canis is a small obligately intracellular, gram-negative, dimorphic bacterium transmitted by the brown dog tick, Rhipicephalus sanguineus, that resides as a microcolony within a membrane-lined intracellular vacuole (morula), primarily within monocytes and macrophages of mammalian hosts (20,26,58). E. canis is the primary etiologic agent of canine monocytic ehrlichiosis, has a complex life cycle involving ticks, and is maintained in nature by persistent infection of wild and domestic canids (25). E. canis was first described in 1935 in Algeria (16) Clinically, E. canis infections progress in three phases: the acute, the subclinical, and the chronic (59, 62). With adequate treatment, dogs typically recover from the acute infections, but untreated or inappropriately treated dogs may develop subclinical persistent infections and thus can become asymptomatic carriers of the organism for years (20,31). Dogs that do not eliminate the infection can develop a severe chronic form of the disease, where bone marrow failure with anemia leads to opportunistic infections, poor response to treatment, and death from massive hemorrhage.Recent molecular characterization of E. canis has identified a limited set of major immunoreactive proteins that include glycoproteins and a major outer membrane protein family containing 25 paralogous genes that could be differentially expressed in the tick and mammalian hosts, contributing to persistent infections of the natural hosts (42, 50). Within the group of known major immunoreactive proteins, three glycoproteins have been identified in E. canis (gp36, gp140, and gp200) with corresponding orthologs in the human pathogen, E. chaffeensis (18,43,47). These g...

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AnkB, a Periplasmic Ankyrin-Like Protein in Pseudomonas aeruginosa , Is Required for Optimal Catalase B (KatB) Activity and Resistance to Hydrogen Peroxide

Cited by 55 publications

References 55 publications

Extensive genomic diversity of closely related Wolbachia strains

Extensive genomic diversity of closely related Wolbachia strains

A Protease-Resistant Catalase, KatA, Released upon Cell Lysis during Stationary Phase Is Essential for Aerobic Survival of a Pseudomonas aeruginosa oxyR Mutant at Low Cell Densities

The Genome of the Obligately Intracellular Bacterium Ehrlichia canis Reveals Themes of Complex Membrane Structure and Immune Evasion Strategies

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