Relative potencies and additivity of perchlorate, thiocyanate, nitrate, and iodide on the inhibition of radioactive iodide uptake by the human sodium iodide symporter

The presence of perchlorate (ClO(4) (-)) in some U.S. drinking water supplies has raised concern about potential adverse thyroidal health effects, because ClO(4) (-) is known to competitively inhibit iodide uptake at the sodium iodide symporter (NIS). Humans are nutritionally and environmentally exp...

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Published inThyroid (New York, N.Y.) Vol. 14; no. 12; p. 1012
Main Authors Tonacchera, Massimo, Pinchera, Aldo, Dimida, Antonio, Ferrarini, Eleonora, Agretti, Patrizia, Vitti, Paolo, Santini, Ferruccio, Crump, Kenny, Gibbs, John
Format Journal Article
LanguageEnglish
Published United States 01.12.2004
Subjects
Algorithms
Animals
Autoantibodies - immunology
CHO Cells
Cricetinae
Humans
Iodides - metabolism
Iodides - pharmacology
Iodine Radioisotopes
Models, Biological
Nitrates - pharmacology
Perchlorates - pharmacology
Symporters - metabolism
Thiocyanates - pharmacology
Transfection
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Summary:The presence of perchlorate (ClO(4) (-)) in some U.S. drinking water supplies has raised concern about potential adverse thyroidal health effects, because ClO(4) (-) is known to competitively inhibit iodide uptake at the sodium iodide symporter (NIS). Humans are nutritionally and environmentally exposed to other competitive inhibitors of iodide uptake, including thiocyanate (SCN(-)) and nitrate (NO(3) (-)). The joint inhibiting effects of these three anions was studied by exposing Chinese hamster ovary cells stably expressing human NIS to varying concentrations of each anion separately, and in combination, and conducting measurements of (125)I(-) uptake. The entire data set was fit to a single Hill equation using maximum likelihood. The relative potency of ClO(4) (-) to inhibit (125)I(-) uptake at the NIS was found to be 15, 30 and 240 times that of SCN(-), I(-), and NO(3) (-) respectively on a molar concentration basis, with no evidence of synergism. These results are consistent with a common mode of action by these anions of simple competitive interaction, in which a concentration of any one of ClO(4) (-) SCN(-), and NO(3) (-), occurring either individually or as part of a mixture of the three anions, is indistinguishable from a concentration or dilution of either one of the remaining two ions in inhibiting iodine uptake at the NIS.
ISSN:1050-7256
DOI:10.1089/thy.2004.14.1012