The DinB Superfamily Includes Novel Mycothiol, Bacillithiol, and Glutathione <i>S</i>-Transferases

Newton, Gerald L.; Leung, Stephan S.; Wakabayashi, Judy I.; Rawat, Mamta; Fahey, Robert C.

doi:10.1021/bi201460j

Cited by 58 publications

(99 citation statements)

References 53 publications

(140 reference statements)

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“…When we followed the fate of the fluorescent alkylating agent monochlorobimane, which is less chemically reactive and thus would require a BST, analogous to a GST, to catalyse its conjugation to BSH, the mercapturic acid of the bimane was detected intracellularly and extracellularly, indicating the presence of a BST, which catalyses the conjugation of monochlorobimane with BSH to produce BSmB. Recently, we have identified and characterized a B. subtilis BST which is able to catalyse the reaction of monochlorobimane with BSH; whether the S. aureus homologue does the same remains to be seen (Newton et al, 2011).…”

Section: Discussionmentioning

confidence: 99%

Detoxification of toxins by bacillithiol in Staphylococcus aureus

2012

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Bacillithiol (BSH), an a-anomeric glycoside of L-cysteinyl-D-glucosaminyl-L-malate, is a major lowmolecular-mass thiol found in bacteria such as Bacillus sp., Staphylococcus aureus and Deinococcus radiodurans. Like other low-molecular-mass thiols such as glutathione and mycothiol, BSH is likely to be involved in protection against environmental toxins including thiolreactive antibiotics. We report here a BSH-dependent detoxification mechanism in S. aureus. When S. aureus Newman strain was treated with monobromobimane and monochlorobimane, the cellular BSH was converted to the fluorescent S-conjugate BS-bimane. A bacillithiol conjugate amidase activity acted upon the BS-bimane to produce Cys-bimane, which was then acetylated by an N-acetyltransferase to generate N-acetyl-Cys-bimane, a mercapturic acid. An S. aureus mutant lacking BSH did not produce mercapturic acid when treated with monobromobimane and monochlorobimane, confirming the involvement of bacillithiol. Furthermore, treatment of S. aureus Newman with rifamycin, the parent compound of the first-line anti-tuberculosis drug, rifampicin, indicated that this thiol-reactive antibiotic is also detoxified in a BSH-dependent manner, since mercapturic acids of rifamycin were observed in the culture medium. These data indicate that toxins and thiol-reactive antibiotics are detoxified to less potent mercapturic acids in a BSH-dependent manner and then exported out of the cell in S. aureus.

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Section: Discussionmentioning

confidence: 99%

Detoxification of toxins by bacillithiol in Staphylococcus aureus

2012

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“…A protein (SCO7269) belonging to the DinB (DNA damage-inducible) superfamily (44) and bearing a mycothiol-dependent maleylpyruvate isomerase Nterminal domain was found to be present in larger amounts in the ppk mutant than in the wt strain. Proteins of this family were shown to catalyze thiol-dependent detoxification reactions (45).…”

Section: Proteomic Studiesmentioning

confidence: 99%

Comparative Proteomic Analysis of Streptomyces lividans Wild-Type andppkMutant Strains Reveals the Importance of Storage Lipids for Antibiotic Biosynthesis

Maréchal

Decottignies

Marchand

et al. 2013

Appl Environ Microbiol

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dStreptomyces lividans TK24 is a strain that naturally produces antibiotics at low levels, but dramatic overproduction of antibiotics occurs upon interruption of the ppk gene. However, the role of the Ppk enzyme in relation to the regulation of antibiotic biosynthesis remains poorly understood. In order to gain a better understanding of the phenotype of the ppk mutant, the proteomes of the wild-type (wt) and ppk mutant strains, grown for 96 h on R2YE medium limited in phosphate, were analyzed. Intracellular proteins were separated on two-dimensional (2D) gels, spots were quantified, and those showing a 3-fold variation or more were identified by mass spectrometry. The expression of 12 proteins increased and that of 29 decreased in the ppk mutant strain. Our results suggested that storage lipid degradation rather than hexose catabolism was taking place in the mutant. In order to validate this hypothesis, the triacylglycerol contents of the wt and ppk mutant strains of S. lividans as well as that of Streptomyces coelicolor M145, a strain that produces antibiotics at high levels and is closely related to S. lividans, were assessed using electron microscopy and thin-layer chromatography. These studies highlighted the large difference in triacylglycerol contents of the three strains and confirmed the hypothetical link between storage lipid metabolism and antibiotic biosynthesis in Streptomyces.

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“…During the preparation of the present study the characterization of three additional enzymes in DinB superfamily was reported to suggest that thiol-dependent S-transferase activity is dominant in this family, including MSH, bacillithiol (BSH), and GSH S-transferases (32). In particular, B. subtilis YfiT, mentioned above, was shown to have BSH S-transferase activity (32). As shown in the phylogenetic tree of the DinB superfamily in Fig.…”

Section: Discussionmentioning

confidence: 72%

“…The complete loss of enzyme activity in three BagL mutants indicated that the three histidines are necessary for its activity and probably function in binding with Ni 2ϩ . During the preparation of the present study the characterization of three additional enzymes in DinB superfamily was reported to suggest that thiol-dependent S-transferase activity is dominant in this family, including MSH, bacillithiol (BSH), and GSH S-transferases (32). In particular, B. subtilis YfiT, mentioned above, was shown to have BSH S-transferase activity (32).…”

Section: Discussionmentioning

confidence: 82%

Novel l -Cysteine-Dependent Maleylpyruvate Isomerase in the Gentisate Pathway of Paenibacillus sp. Strain NyZ101

Liu

Zhou

2012

J Bacteriol

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Glutathione-and mycothiol-dependent maleylpyruvate isomerases are known to be involved, respectively, in gentisate catabolism in Gram-negative and high G؉C Gram-positive strains. In the present study, a low-G؉C Gram-positive Paenibacillus sp. strain, NyZ101, was isolated and shown to degrade 3-hydroxybenzoate via gentisate. A 6.5-kb fragment containing a conserved region of gentisate 1,2-dioxygenase genes was cloned and sequenced, and four genes (bagKLIX) were shown to encode the enzymes involved in the catabolism to central metabolites of 3-hydroxybenzoate via gentisate. The Bag proteins share moderate identities with the reported enzymes in the 3-hydroxybenzoate catabolism, except BagL that had no obvious homology with any functionally characterized proteins. Recombinant BagL was purified to homogeneity as a His-tagged protein and likely a dimer by gel filtration. BagL was demonstrated to be a novel thiol-dependent maleylpyruvate isomerase catalyzing the isomerization of maleylpyruvate to fumarylpyruvate with L-cysteine, cysteinylglycine, or glutathione, as its cofactor. The K m values of these three thiols for BagL were 15.5, 8.4, and 552 M, respectively. Since cysteine and coenzyme A were reported to be abundant in low-G؉C Gram-positive strains, BagL should utilize L-cysteine as its physiological cofactor in vivo. The addition of Ni 2؉ increased BagL activity, and site-directed mutagenesis experiments indicated that three conserved histidines in BagL were associated with binding to Ni 2؉ ion and were necessary for its enzyme activity. BagL is the first characterized L-cysteine-dependent catabolic enzyme in microbial metabolism and is likely a new and distinct member of DinB family, with a four-helix-bundle topology, as deduced by sequence analysis and homology modeling.

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The DinB Superfamily Includes Novel Mycothiol, Bacillithiol, and Glutathione S-Transferases

Cited by 58 publications

References 53 publications

Detoxification of toxins by bacillithiol in Staphylococcus aureus

Detoxification of toxins by bacillithiol in Staphylococcus aureus

Comparative Proteomic Analysis of Streptomyces lividans Wild-Type andppkMutant Strains Reveals the Importance of Storage Lipids for Antibiotic Biosynthesis

Novel l -Cysteine-Dependent Maleylpyruvate Isomerase in the Gentisate Pathway of Paenibacillus sp. Strain NyZ101

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