The mechanisms of methionine oxidation concomitant with hormone radioiodination comparative studies of various oxidants using a simple new method

The mechanism of oxidation of methionine concomitant with iodination was studied by ascending paper chromatography using $\text{l}\text{-[Me-}{}^{14}\text{C}\text{]}\text{methionine}$. The ability of the principal iodination reactants to oxidize free methionine was measured in order to predict in situ methionyl oxidation during radioiodination of peptides. Iodide, oxidant, and tyrosine were tested individually and in combination. Dilute chloramine-T and H₂O₂ effectively oxidized free methionine, whereas electric current at the low levels used for iodination did not. Whereas KI₃ did not cause significant methionine oxidation, iodine in statu nascendi was a potent oxidant. Oxidation caused by chemical oxidants was markedly reduced by the addition of iodide, whereas the opposite effect was seen with electric current. In our in vitro system, tyrosine inhibited the effect of the chemical oxidants to different degrees, in the absence of iodide. Under conditions simulating actual ‘mild’ radioiodination conditions, with added tyrosine, none of the oxidants studied caused methionine oxidation; the presence of tyrosine and iodide appeared to preclude the oxidation of methionine. Both excess chloramine-T and high electric current resulted in the formation of a new compound, possibly a sulphinic acid derivative of methionine. The important finding was that the release of free iodine and its uptake by tyrosine were the dominant factors to be considered in the prevention of methionine oxidation.Our new chromatographic technique for the estimation of methionine oxidation in peptides is based on the observed similarity between the reactivity of free methionine and that of accessible methionyl residues in peptides. The method is simple, sensitive and reproducible.