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Original Articles

Mercury but not Organochlorines Inhibits Muscarinic Cholinergic Receptor Binding in the Cerebrum of Ringed Seals (Phoca hispida)

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Pages 1133-1143 | Received 15 Feb 2005, Accepted 18 May 2005, Published online: 24 Feb 2007
 

Abstract

Elevated concentrations of organochlorines and mercury (Hg) have been reported in marine mammals on a global scale. While risk assessments are generally based on quantifying body burdens of toxicants, much less is known about associated adverse health effects and their underlying mechanisms. The purpose of this study was to characterize the inhibitory effects of methylmercury (MeHg+), mercuric chloride (Hg2+), p,p′-DDT, Arochlor 1254, chlordane, dieldrin, lindane, and toxaphene on [3H]quinuclidinyl benzilate ([3H]-QNB) binding to the muscarinic cholinergic (mACh) receptor in cellular membranes isolated from the cerebrum of ringed seals (Phoca hispida). [3H]-QNB binding to the mACh receptor was saturable with a mean receptor density (B max) of 826.9 ± 68.4 fmol/mg and ligand affinity (K d) of 0.31 ± 0.04 nM. MeHg+ and Hg2+ were the only neurotoxicants that inhibited radioligand binding by greater than 50%. Hg2+ was significantly more potent at inhibiting mACh receptor binding than MeHg+ when the IC50 data were compared (IC50 = 1.92 ± 0.06 μM versus 2.75 ± 0.22 μM), but when the data were normalized to derive inhibition constants (K i) there was no statistical difference in inhibition (Hg2+ = 1.38 ± 0.07 μM; MeHg+ = 1.26 ± 0.12 μM). Toxaphene also inhibited mACh receptor binding by 22.4%, but this was only significant at the highest concentration tested (320 μM). Overall, these data suggest that Hg, and not organochlorines, inhibits ligand binding to the mACh receptor. These mechanistic findings may be used to support and develop specific biomarkers of Hg exposure and neurotoxicity in sensitive ecological species.

This study was funded by Collaborative Mercury Research Network (COMERN) and National Sciences and Engineering Research Council (NSERC) of Canada Discovery Research Grants to H. M. Chan. Samples were collected under the Northern Contaminants Program, Canada. Assistance by Christopher J. Stamler, Sonja Ostertag, and Donna Leggee is greatly appreciated.

Notes

This study was funded by Collaborative Mercury Research Network (COMERN) and National Sciences and Engineering Research Council (NSERC) of Canada Discovery Research Grants to H. M. Chan. Samples were collected under the Northern Contaminants Program, Canada. Assistance by Christopher J. Stamler, Sonja Ostertag, and Donna Leggee is greatly appreciated.

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