Identification of a sulfate metabolite of PCB 11 in human serum

Despite increasing evidence for a major role for sulfation in the metabolism of lower-chlorinated polychlorinated biphenyls in vitro and in vivo, and initial evidence for potential bioactivities of the resulting sulfate ester metabolites, the formation of PCB sulfates in PCB exposed human population...

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Bibliographic Details
Published in:Environment international 2017-01, Vol.98, p.120-128
Main Authors: Grimm, Fabian A., Lehmler, Hans-Joachim, Koh, Wen Xin, DeWall, Jeanne, Teesch, Lynn M., Hornbuckle, Keri C., Thorne, Peter S., Robertson, Larry W., Duffel, Michael W.
Format: Article
Language:English
Subjects:
Exposure assessment
Female
Glucuronic Acid - metabolism
Halogenation
Humans
Hydroxylation
Mass Spectrometry
Metabolism
PCB
Polychlorinated biphenyls
Polychlorinated Biphenyls - blood
Polychlorinated Biphenyls - metabolism
Serum
Sulfates - metabolism
Sulfation
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Summary:Despite increasing evidence for a major role for sulfation in the metabolism of lower-chlorinated polychlorinated biphenyls in vitro and in vivo, and initial evidence for potential bioactivities of the resulting sulfate ester metabolites, the formation of PCB sulfates in PCB exposed human populations had not been explored. The primary goal of this study was to determine if PCB sulfates, and potentially other conjugated PCB derivatives, are relevant classes of PCB metabolites in the serum of humans with known exposures to PCBs. In order to detect and quantify dichlorinated PCB sulfates in serum samples of 46 PCB-exposed individuals from either rural or urban communities, we developed a high-resolution mass spectrometry-based protocol using 4-PCB 11 sulfate as a model compound. The method also allowed the preliminary analysis of these 46 human serum extracts for the presence of other metabolites, such as glucuronic acid conjugates and hydroxylated PCBs. Sulfate ester metabolites derived from dichlorinated PCBs were detectable and quantifiable in more than 20% of analyzed serum samples. Moreover, we were able to utilize this method to detect PCB glucuronides and hydroxylated PCBs, albeit at lower frequencies than PCB sulfates. Altogether, our results provide initial evidence for the presence of PCB sulfates in human serum. Considering the inability of previously employed analytical protocols for PCBs to extract these sulfate ester metabolites and the concentrations of these metabolites observed in our current study, our data support the hypothesis that total serum levels of PCB metabolites in exposed individuals may have been underestimated in the past. •Sulfated metabolites of PCB 11 were detected in serum of PCB-exposed individuals.•Conjugated PCB metabolites are not co-extracted in conventional analytical procedures.•Overall PCB exposure levels in exposed populations may have been underestimated.
ISSN:0160-4120
1873-6750
DOI:10.1016/j.envint.2016.10.023