N-carbamoylation is the non-enzymatic reaction of cyanate with amino groups. Due to urea-formed cyanate in uremic patients beside carbamoylated proteins also free amino acid carbamoylation has been detected, a modification which has been linked to disturbed protein synthesis as NH(2)-derivatisation interferes with peptide bond formation. HOCl the product of the activated MPO/H(2)O(2)/Cl(-) system is known to react with the NH(2)-group of free amino acids to form chloramines which could exert some protective effect against protein modification and cytotoxicity induced by HOCl. As N-carbamoylation may inhibit formation of chloramines we have used N-carbamoyl-threonine as a model amino acid to study its ability to limit the reactivity of HOCl with proteins (LDL and human serum albumin) and cells (THP-1 monocytes and coronary artery endothelial cells). The data indicate that N-carbamoylation completely abolished the protein- and cell-protective effect of threonine against HOCl attack. In contrast to threonine the reaction of HOCl with carbamoyl-threonine resulted in the formation of volatile oxidant species with protein modifying and cytotoxic potential. The volatile lipophilic inorganic monochloramine (NH(2)Cl) was identified as a breakdown product of this reaction.
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