Modification of the Catalytic Function of Human Hydroxysteroid Sulfotransferase hSULT2A1 by Formation of Disulfide Bonds

Qin, Xiaoyan; Teesch, Lynn M.; Duffel, Michael W.

doi:10.1124/dmd.112.050534

Cited by 11 publications

(12 citation statements)

References 46 publications

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“…41 Indeed, our current results on the modification of hSULT2A1 with three PCB-quinones also showed consistent decreases in catalytic activity. There was, however, an increase in the catalytic activity at some concentrations of the non-chlorinated biphenyl quinone, PBQ.…”

Section: Discussionsupporting

confidence: 78%

“…41,55,57,65–68 While most of these SULTs have been members of family 1, we have recently reported that the catalytic activity of human hydroxysteroid sulfotransferase hSULT2A1 is also sensitive to formation of disulfide bonds at key cysteine residues. 41 Alteration of the structure and function of hSULT2A1 through oxidative post-translational changes at cysteine residues led us to hypothesize that changes in catalytic function may also result from reaction of the enzyme with electrophiles that form adducts at those cysteine residues. Such adduct formation would likely alter sulfation with concomitant effects on the metabolism of xenobiotics as well as endogenous molecules.…”

Section: Discussionmentioning

confidence: 99%

“…41 Removal of DTT to a concentration less than 0.01 mM was then verified by a standard assay for determination of thiols. 51 Following the removal of DTT, hSULT2A1 was incubated for 1 hour at 25 °C with the indicated concentrations of PCB-quinones or PBQ in the same buffer solution that had been used for chromatography on the PD-10 column ( i.e ., 50 mM Tris-HCl buffer, pH 7.4, containing 0.25 M sucrose, 10 % (v/v) glycerol, and 0.05 % (v/v) Tween 20).…”

Section: Methodsmentioning

confidence: 99%

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Chlorinated Biphenyl Quinones and Phenyl-2,5-benzoquinone Differentially Modify the Catalytic Activity of Human Hydroxysteroid Sulfotransferase hSULT2A1

Qin

Lehmler

Teesch

et al. 2013

Chem. Res. Toxicol.

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Human hydroxysteroid sulfotransferase (hSULT2A1) catalyzes the sulfation of a broad range of environmental chemicals, drugs, and other xenobiotics in addition to endogenous compounds that include hydroxysteroids and bile acids. Polychlorinated biphenyls (PCBs) are persistent environmental contaminants, and oxidized metabolites of PCBs may play significant roles in the etiology of their adverse health effects. Quinones derived from oxidative metabolism of PCBs (PCB-quinones) react with nucleophilic sites in proteins and also undergo redox cycling to generate reactive oxygen species. This, along with the sensitivity of hSULT2A1 to oxidative modification at cysteine residues led us to hypothesize that electrophilic PCB-quinones react with hSULT2A1 to alter its catalytic function. Thus, we examined the effects of four phenylbenzoquinones on the ability of hSULT2A1 to catalyze the sulfation of the endogenous substrate, dehydroepiandrosterone (DHEA). The quinones studied were 2′-chlorophenyl-2,5-benzoquinone (2′-Cl-BQ), 4′-chlorophenyl-2,5-benzoquinone (4′-Cl-BQ), 4′-chlorophenyl-3,6-dichloro-2,5-benzoquinone (3,6,4′-triCl-BQ), and phenyl-2,5-benzoquinone (PBQ). At all concentrations examined, pretreatment of hSULT2A1 with the PCB-quinones decreased catalytic activity of hSULT2A1. Pretreatment with low concentrations of PBQ, however, increased the catalytic activity of the enzyme, while higher concentrations inhibited catalysis. A decrease in substrate inhibition with DHEA was seen following preincubation of hSULT2A1 with all of the quinones. Proteolytic digestion of the enzyme followed by LC/MS analysis indicated PCB-quinone- and PBQ-adducts at Cys55 and Cys199, as well as oxidation products at methionines in the protein. Equilibrium binding experiments and molecular modeling suggested that changes due to these modifications may affect the nucleotide binding site and the entrance to the sulfuryl acceptor binding site of hSULT2A1.

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Section: Discussionsupporting

confidence: 78%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Chlorinated Biphenyl Quinones and Phenyl-2,5-benzoquinone Differentially Modify the Catalytic Activity of Human Hydroxysteroid Sulfotransferase hSULT2A1

Qin

Lehmler

Teesch

et al. 2013

Chem. Res. Toxicol.

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“…One possibility is that the reduction may be caused by PCB3 hydroquinone or semiquinone radicals, as described with benzoquinones (Williams 1963, Winterbourn 1981). Interestingly, after adduct formation with sulfhydryl groups in peptides/proteins like N-acetyl cysteine (Wangpradit et al 2009) and human hydroxysteroid sulfotransferase hSULT2A1 (Qin et al 2013b) only hydroquinone derivatives of PCBs were identified, while the adducts we found with cytochrome c were all quinoid derivatives of PCBs. This may be caused by the oxidation of a hydroquinone or semiquinone adduct by the ferric heme group in cytochrome c resulting in reduced cytochrome c and a PCB quinone adduct.…”

Section: Discussionmentioning

confidence: 87%

Cytochrome c adducts with PCB quinoid metabolites

Teesch

Murry

et al. 2015

Environ Sci Pollut Res

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PCBs are a group of 209 individual congeners widely used as industrial chemicals. PCBs are found as by-products in dye and paint manufacture and are legacy, ubiquitous and persistent as human and environmental contaminants. PCBs with fewer chlorine atoms may be metabolized to hydroxy- and dihydroxy- metabolites and further oxidized to quinoid metabolites both in vitro and in vivo. Specifically, quinoid metabolites may form adducts on nucleophilic sites within cells. We hypothesized that the PCB-quinones covalently bind to cytochrome c and thereby cause defects in the function of cytochrome c. In this study synthetic PCB quinones (2-(4’-chlorophenyl)-1,4-benzoquinone, 2-(3’, 5’-dichlorophenyl)-1,4-benzoquinone, 2-(3’,4’, 5’-trichlorophenyl)-1,4-benzoquinone, and 2-(4’-chlorophenyl)-3,6-dichloro-1,4-benzoquinone) were incubated with cytochrome c, and adducts were detected by LC-MS and MALDI TOF. SDS PAGE gel electrophoresis was employed to separate the adducted proteins, while trypsin digestion and LC-MS/MS were applied to identify the amino acid binding sites on cytochrome c. Conformation change of cytochrome c after binding with PCB3-para-quinone was investigated by SYBYL-X simulation and cytochrome c function was examined. We found that more than one molecule of PCB-quinone may bind to one molecule of cytochrome c. Lysine and glutamic acid were identified as the predominant binding sites. Software simulation showed conformation changes of adducted cytochrome c. Additionally, cross-linking of cytochrome c was observed on the SDS PAGE gel. Cytochrome c was found to be in the reduced form after incubation with PCB quinones. These data provide evidence that the covalent binding of PCB quinone metabolites to cytochrome c may be included among the toxic effects of PCBs.

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“…60,82 PCB quinones are also capable of protein adduct formation, a mechanism by which they can interfere with the physiological functions of a protein. [83][84][85] OHPCBs also represent substrates for conjugation reactions catalyzed by sulfotransferases (SULTs), UDP-glucuronosyl transferases (UGTs) or glutathione Stransferases (GSTs) to yield their respective sulfate, glucuronic acid or mercapturic acid conjugates. 73,86,87 These conjugation reactions increase the polarity of PCBs, which results in enhanced hydrophilicity and which is typically assumed to result in renal or biliary excretion.…”

Section: Figure 1-2mentioning

confidence: 99%

Toxicological and therapeutic implications of interactions between polychlorinated biphenyl sulfates and human transthyretin

Grimm¹

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Modification of the Catalytic Function of Human Hydroxysteroid Sulfotransferase hSULT2A1 by Formation of Disulfide Bonds

Cited by 11 publications

References 46 publications

Chlorinated Biphenyl Quinones and Phenyl-2,5-benzoquinone Differentially Modify the Catalytic Activity of Human Hydroxysteroid Sulfotransferase hSULT2A1

Chlorinated Biphenyl Quinones and Phenyl-2,5-benzoquinone Differentially Modify the Catalytic Activity of Human Hydroxysteroid Sulfotransferase hSULT2A1

Cytochrome c adducts with PCB quinoid metabolites

Toxicological and therapeutic implications of interactions between polychlorinated biphenyl sulfates and human transthyretin

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