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Development of a validated liquid chromatography/tandem mass spectrometry method for the distinction of thyronine and thyronamine constitutional isomers and for the identification of new deiodinase substrates
Authors:Piehl Susanne  Heberer Thomas  Balizs Gabor  Scanlan Thomas S  Köhrle Josef
Affiliation:1. Institut für Experimentelle Endokrinologie und Endokrinologisches Forschungszentrum der Charité EnForCé, Charité – Universit?tsmedizin Berlin, Augustenburger Platz 1, D‐13353 Berlin, Germany;2. Lower Saxony Federal State Office of Consumer Protection and Food Safety (LAVES), Food Institute Oldenburg, Martin‐Niem?ller‐Stra?e 2, D‐26133 Oldenburg, Germany;3. Federal Institute for Risk Assessment, Diedersdorfer Weg 1, D‐12277 Berlin, Germany;4. Department of Physiology & Pharmacology, Oregon Health & Science University, Portland, OR 97239‐3098, USA
Abstract:Thyronines (THs) and thyronamines (TAMs) are two groups of endogenous iodine-containing signaling molecules whose representatives differ from each other only regarding the number and/or the position of the iodine atoms. Both groups of compounds are substrates of three deiodinase isozymes, which catalyze the sequential reductive removal of iodine from the respective precursor molecule. In this study, a novel analytical method applying liquid chromatography/tandem mass spectrometry (LC-MS/MS) was developed. This method permitted the unequivocal, simultaneous identification and quantification of all THs and TAMs in the same biological sample. Furthermore, a liquid-liquid extraction procedure permitting the concurrent isolation of all THs and TAMs from biological matrices, namely deiodinase (Dio) reaction mixtures, was established. Method validation experiments with extracted TH and TAM analytes demonstrated that the method was selective, devoid of matrix effects, sensitive, linear over a wide range of analyte concentrations and robust in terms of reproducible recoveries, process efficiencies as well as intra-assay and inter-assay stability parameters. The method was applied to study the deiodination reactions of iodinated THs catalyzed by the three deiodinase isozymes. With the HPLC protocol developed herein, sufficient chromatographic separation of all constitutional TH and TAM isomers was achieved. Accordingly, the position of each iodine atom removed from a TH substrate in a Dio-catalyzed reaction was backtracked unequivocally. While several established deiodination reactions were verified, two as yet unknown reactions, namely the phenolic ring deiodination of 3',5'-diiodothyronine (3',5'-T2) by Dio2 and the tyrosyl ring deiodination of 3-monoiodothyronine (3-T1) by Dio3, were newly identified.
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