Mechanistic studies of FosB: a divalent-metal-dependent bacillithiol-S-transferase that mediates fosfomycin resistance in <i>Staphylococcus aureus</i>

Roberts, A. W.; Sharma, Sunil V.; Strankman, Andrew; Duran, Shayla; Rawat, Mamta; Hamilton, Chris J.

doi:10.1042/bj20121541

Cited by 68 publications

(117 citation statements)

References 43 publications

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“…In previous studies, FosB was shown to mediate fosfomycin resistance in S. aureus through the use of BSH to disrupt the epoxide ring of fosfomycin (18,19,38). We investigated here the role of BSH in fosfomycin resistance mediated by FosB in a wide variety of methicillin-sensitive and methicillin-resistant S. aureus strains, including clinical isolates.…”

Section: Fosb Utilizes Bsh As a Substrate To Confer Fosfomycin Resistmentioning

confidence: 99%

“…Intracellular reduced thiols (BSH, Cys, and coenzyme A [CoA] sulfhydrate [CoASH]) were derivatized, in triplicate, with monobromobimane (mBBr). Samples for disulfide analysis were first treated with Nethylmaleimide (NEM), followed by dithiothreitol (DTT) reduction and labeling with mBBr of reduced thiols and oxidized disulfides (BSSB and cystine), and were analyzed by fluorescent high-pressure liquid chromatography (HPLC), as previously described (18,25). However, it is not possible to accurately quantify CoA disulfide because the DTT treatment used in the disulfide analysis also cleaves thioesters such as acetyl-CoA into CoA, resulting in an overestimate of CoA disulfide (26).…”

Section: Methodsmentioning

confidence: 99%

“…In vitro, FosB purified from S. aureus has been reported to function as a BSH-S-transferase (BST) to inactivate fosfomycin by opening up the epoxide ring of fosfomycin through the conjugation of BSH to the compound and, hence, inactivating the drug (17)(18)(19). While factors such as importers (e.g., GlpT [16] and UhpT [20]) have been connected to fosfomycin resistance, their exact contribution to resistance in S. aureus depends on transport of the drug rather than direct inactivation of FosB.…”

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confidence: 99%

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Importance of Bacillithiol in the Oxidative Stress Response of Staphylococcus aureus

et al. 2014

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In Staphylococcus aureus, the low-molecular-weight thiol called bacillithiol (BSH), together with cognate S-transferases, is believed to be the counterpart to the glutathione system of other organisms. To explore the physiological role of BSH in S. aureus, we constructed mutants with the deletion of bshA (sa1291), which encodes the glycosyltransferase that catalyzes the first step of BSH biosynthesis, and fosB (sa2124), which encodes a BSH-S-transferase that confers fosfomycin resistance, in several S. aureus strains, including clinical isolates. Mutation of fosB or bshA caused a 16-to 60-fold reduction in fosfomycin resistance in these S. aureus strains. High-pressure liquid chromatography analysis, which quantified thiol extracts, revealed some variability in the amounts of BSH present across S. aureus strains. Deletion of fosB led to a decrease in BSH levels. The fosB and bshA mutants of strain COL and a USA300 isolate, upon further characterization, were found to be sensitive to H 2 O 2 and exhibited decreased NADPH levels compared with those in the isogenic parents. Microarray analyses of COL and the isogenic bshA mutant revealed increased expression of genes involved in staphyloxanthin synthesis in the bshA mutant relative to that in COL under thiol stress conditions. However, the bshA mutant of COL demonstrated decreased survival compared to that of the parent in human wholeblood survival assays; likewise, the naturally BSH-deficient strain SH1000 survived less well than its BSH-producing isogenic counterpart. Thus, the survival of S. aureus under oxidative stress is facilitated by BSH, possibly via a FosB-mediated mechanism, independently of its capability to produce staphyloxanthin.

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Section: Fosb Utilizes Bsh As a Substrate To Confer Fosfomycin Resistmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Importance of Bacillithiol in the Oxidative Stress Response of Staphylococcus aureus

et al. 2014

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“…Mechanisms for fosfomycin resistance are encoded on plasmids and the chromosome. Resistance to fosfomycin is conferred by the production of the plasmid-encoded enzymes FosA, FosB, FosC, and FosX, which leads to inactivation of fosfomycin (13)(14)(15)(16). Chromosomal mutations that lead to the expression of MurA variants that have impaired fosfomycin binding or result in overexpression of MurA also confer resistance to fosfomycin.…”

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confidence: 99%

Role of the CpxAR Two-Component Signal Transduction System in Control of Fosfomycin Resistance and Carbon Substrate Uptake

Kurabayashi¹,

Hirakawa²,

Tanimoto³

et al. 2013

Journal of Bacteriology

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Although fosfomycin is an old antibiotic, it has resurfaced with particular interest. The antibiotic is still effective against many pathogens that are resistant to other commonly used antibiotics. We have found that fosfomycin resistance of enterohemorrhagic Escherichia coli (EHEC) O157:H7 is controlled by the bacterial two-component signal transduction system CpxAR. A cpxA mutant lacking its phosphatase activity results in constitutive activation of its cognate response regulator, CpxR, and fosfomycin resistance. We have shown that fosfomycin resistance requires CpxR because deletion of the cpxR gene in the cpxA mutant restores fosfomycin sensitivity. We have also shown that CpxR directly represses the expression of two genes, glpT and uhpT, which encode transporters that cotransport fosfomycin with their native substrates glycerol-3-phosphate and glucose-6-phosphate, and repression of these genes leads to a decrease in fosfomycin transport into the cpxA mutant. However, the cpxA mutant had an impaired growth phenotype when cultured with glycerol-3-phosphate or glucose-6-phosphate as a sole carbon substrate and was outcompeted by the parent strain, even in nutrient-rich medium. This suggests a trade-off between fosfomycin resistance and the biological fitness associated with carbon substrate uptake. We propose a role for the CpxAR system in the reversible control of fosfomycin resistance. This may be a beneficial strategy for bacteria to relieve the fitness burden that results from fosfomycin resistance in the absence of fosfomycin.

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“…Note that fosfomycin resistance provides a semiquantitative measure of in vivo BSH levels since resistance is largely dependent on the BSH-dependent thiol-transferase FosB. Since the K m of FosB for BSH is in the millimolar range (higher than in vivo levels during growth; Roberts et al, 2013), FosB activity, and therefore fosfomycin resistance, is very sensitive to even small changes in BSH levels (Gaballa et al, 2010;Parsonage et al, 2010). Since pMUTIN disruptants are generally polar on downstream genes (Fig.…”

Section: The Bshc Gene Is Part Of a Complex Operonmentioning

confidence: 99%

Regulation of Bacillus subtilis bacillithiol biosynthesis operons by Spx

et al. 2013

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Bacillithiol is the major low molecular mass thiol produced by many firmicutes bacteria, including the model organism Bacillus subtilis and pathogens such as Bacillus anthracis and Staphylococcus aureus. We have previously shown that four genes (bshA, bshB1, bshB2 and bshC) are involved in bacillithiol biosynthesis. Here, we report that these four genes are encoded within three, unlinked operons all expressed from canonical s A -dependent promoters as determined by 59RACE (rapid amplification of cDNA ends). The bshA and bshB1 genes are embedded within a seven-gene operon additionally including mgsA, encoding methylglyoxal synthase, and the essential genes cca and birA, encoding tRNA nucleotidyltransferase (CCA transferase) and biotin-protein ligase, respectively. The bshB2 gene is co-transcribed with unknown function genes, while bshC is expressed both as part of a two-gene operon (with the upstream putative pantothenate biosynthesis gene ylbQ) and from its own promoter. All three operons are expressed at a reduced level in an spx null mutant, consistent with a direct role of Spx as a transcriptional activator for these operons, and all three operons are induced by the thiol oxidant diamide. In contrast with other Spx-regulated genes characterized to date, the effects of Spx on basal expression and diamide-stimulated expression appear to be independent of Cys10 in the redox centre of Spx. Consistent with the role of Spx as an activator of bacillithiol biosynthetic genes, cellular levels of bacillithiol are reduced several-fold in an spx null mutant.

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Mechanistic studies of FosB: a divalent-metal-dependent bacillithiol-S-transferase that mediates fosfomycin resistance in Staphylococcus aureus

Cited by 68 publications

References 43 publications

Importance of Bacillithiol in the Oxidative Stress Response of Staphylococcus aureus

Importance of Bacillithiol in the Oxidative Stress Response of Staphylococcus aureus

Role of the CpxAR Two-Component Signal Transduction System in Control of Fosfomycin Resistance and Carbon Substrate Uptake

Regulation of Bacillus subtilis bacillithiol biosynthesis operons by Spx

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