Abstract

We find that histidine residues in proteins are major targets for reaction with the lipid peroxidation product 4-hydroxynon-2-enal (HNE). Reaction of insulin (which contains no sulfhydryl groups) with HNE leads to the generation of HNE-protein adducts, which are converted to radioactive derivatives upon subsequent treatment with NaB[3H]H4. Amino acid analysis of the modified protein showed that the HNE treatment leads to the selective loss of histidine residues and the stiochiometric formation of 3H-labeled amino acid derivatives. The same labeled products were detected in acid hydrolysates of polyhistidine and N-acetylhistidine after their reactions with HNE and NaB[3H]H4. The reaction of N-acetylhistidine with HNE led to the production of two compounds. Upon acid hydrolysis, both derivatives yielded stoichiometric amounts of histidine. However, after reduction with NaBH4, acid hydrolysis led to a mixture of amino acid derivatives [presumably, isomeric forms of N pi (N tau)-1,4-dihydroxynonanylhistidine] that were indistinguishable from those obtained from insulin and polyhistidine after similar treatment. Although other possibilities are not excluded, it is suggested that the modification of histidine residues in proteins by HNE involves a Michael-type addition of the imidazole nitrogen atom of histidine to the alpha, beta-unsaturated bond of HNE, followed by secondary reaction involving the aldehyde group with the C-4 hydroxyl group of HNE. The reaction of histidine residues with HNE provides the basis for methods by which the contributions of HNE in the modification of proteins can be determined.

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