Reactions of 4 methylphenyl isocyanate with amino acids.

Arylisocyanates are important intermediates in the chemical industry. Amongst the main damage after low levels of isocyanate exposure are lung sensitization and asthma. Protein adducts of isocyanates might be involved in the aetiology of sensitization reactions. Blood protein adducts are used as dosimeters for modifications of macromolecules in the target organs where the disease develops. To develop methods for the quantitation of protein adducts we reacted 4 methylphenyl isocyanate 4MPI with the tripeptide valyl glycyl glycine and with single amino acids yielding N 4 methylphenyl carbamoyl L valyl glycyl glycine 4MPI Val Gly Gly, N 4 methylphenyl carbamoyl L valine 4MPI Val, N 4 methylphenyl carbamoyl L aspartic acid 4MPI Asp, N acetyl S 4 methylphenyl carbamoyl L cysteine 4MPI AcCys, N acetyl N 4 methylphenyl carbamoyl lysine 4MPI AcLys, N acetyl O 4 methylphenyl carbamoyl tyrosine 4MPI AcTyr and N acetyl O 4 methylphenyl carbamoyl D,L serine 4MPI AcSer. The hydrolysis of the adducts was tested under acidic and basic conditions, to obtain the maximum yield of 4 methylaniline 4MA. The isocyanates were hydrolysed for 1 h, 3h and 24h at 100 C with 6 M HCl in and or 0.1 M NaOH at room temperature, following methods applied for the analyses of biological samples of arylisocyanate exposed workers. In addition, we applied a new protocol: the adducts were hydrolyzed for 1-24 h in 0.3 M NaOH at 100 C. The hydrolysates were analysed using HPLC with UV detection and quantified against the internal standard, 4 fluoroaniline or 4 chloroaniline. 4MA was obtained with the best yields using 0.3M NaOH; after 24 h all amino acid adducts were cleaved under these conditions. Acid hydrolysis of 4MPI Val and 4MPI Asp yielded the respective hydantoins 3 4 methylphenyl 5 isopropyl 1,3 imidazoline 2,4 dione and 2 1 4 methylphenyl 2,5 dioxoperhydro 4 imidazolyl acetic acid. For future studies, we propose to hydrolyse biological samples with 0.3 M NaOH at 100 C to release the maximum amount of 4MA from the adducts. However, in biological samples from workers, hydrolysable adducts can also result from arylamine exposure. Therefore, we propose to analyse the N terminal adducts of isocyanates with blood protein to distinguish between arylamine and arylisocyanate exposure.