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.     

Determination of albumin adducts of 4,4′-methylenediphenyl diisocyanate in workers of a 4,4′-methylenedianiline factory

Lung sensitization and asthma are the main health effects of 4,4′-methylenediphenyl diisocyanate (MDI). Albumin adducts (isocyanate specific adducts) of MDI might be involved in the etiology of sensitization reactions. Albumin adducts of MDI have been found in subjects classified as 4,4′-methylenedianiline (MDA) workers. The mean adduct levels in these MDA-workers were 1.5 times higher than in MDI-workers of the same company. MDA-specific hemoglobin adducts, were present ten times more in the MDA-workers than in the MDI-workers. MDA-workers with specific work task had significantly higher albumin adduct levels.     

Urinary metabolites of workers exposed to nitrotoluenes

Nitrotoluenes are important intermediates in the chemical industry. 2,6-Dinitrotoluene (26DNT), 2,4-dinitrotoluene (24DNT) and 2-nitrotoluene (2NT) are carcinogenic in animals and possibly carcinogenic in humans. Thus, it is important to develop methods to biomonitor workers exposed to such chemicals. The authors have monitored the air and urine metabolite levels for a group of workers in China exposed to 24DNT, 26DNT, 2NT and 4-nitrotoluene (4NT). The metabolites 2,4-dinitrobenzylalcohol (24DNBAlc), 2-amino-4-nitrobenzoic acid (2A4NBA), 4-amino-2-nitrobenzoic acid (4A2NBA) and 2,4-dinitrobenzoic acid (24DNBA) resulting from exposure to 24DNT were found in 89, 88, 91 and 78% of the exposed workers, respectively. The metabolites 2,6-dinitrobenzylalcohol (26DNBAlc) and 2,6-dinitrobenzoic acid resulting from 26DNT exposure were found in 99 and 86% of the exposed workers, respectively. Quantitatively, 2A4NBA, 4A2NBA and 26DNBAlc were the major metabolites. The nitrobenzoic acids were the major metabolites resulting from exposure to 2NT and 4NT and were present in 96 and 73% of the exposed workers, respectively. Air concentrations of DNT and 2NT did not correlate with the levels of metabolites in the urine. In conclusion, the dinitrobenzyl alcohols and aminonitrobenzoic acids determined in the urine provided a good marker for recently absorbed dose and were intrinsically related to the bioactivation and detoxification pathways of DNT. Air measurements were not a good measure to predict internal exposure.     

Urinary metabolites of workers exposed to nitrotoluenes.

Nitrotoluenes are important intermediates in the chemical industry. 2,6-Dinitrotoluene (26DNT), 2,4-dinitrotoluene (24DNT) and 2-nitrotoluene (2NT) are carcinogenic in animals and possibly carcinogenic in humans. Thus, it is important to develop methods to biomonitor workers exposed to such chemicals. The authors have monitored the air and urine metabolite levels for a group of workers in China exposed to 24DNT, 26DNT, 2NT and 4-nitrotoluene (4NT). The metabolites 2,4-dinitrobenzylalcohol (24DNBAlc), 2-amino-4-nitrobenzoic acid (2A4NBA), 4-amino-2-nitrobenzoic acid (4A2NBA) and 2,4-dinitrobenzoic acid (24DNBA) resulting from exposure to 24DNT were found in 89, 88, 91 and 78% of the exposed workers, respectively. The metabolites 2,6-dinitrobenzylalcohol (26DNBAlc) and 2,6-dinitrobenzoic acid resulting from 26DNT exposure were found in 99 and 86% of the exposed workers, respectively. Quantitatively, 2A4NBA, 4A2NBA and 26DNBAlc were the major metabolites. The nitrobenzoic acids were the major metabolites resulting from exposure to 2NT and 4NT and were present in 96 and 73% of the exposed workers, respectively. Air concentrations of DNT and 2NT did not correlate with the levels of metabolites in the urine. In conclusion, the dinitrobenzyl alcohols and aminonitrobenzoic acids determined in the urine provided a good marker for recently absorbed dose and were intrinsically related to the bioactivation and detoxification pathways of DNT. Air measurements were not a good measure to predict internal exposure.     

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.     

Comparison of biomarkers in workers exposed to 2,4,6-trinitrotoluene

2,4,6-Trinitrotoluene (TNT) is an important occupational and environmental pollutant. In TNT-exposed humans, notable toxic manifestations have included aplastic anaemia, toxic hepatitis, cataracts, hepatomegaly, and liver cancer. Therefore, methods were developed to biomonitor workers exposed to TNT. The workers were employed in a typical ammunition factory in China. The external dose (air levels and skin exposure), the internal dose (urinary metabolites), the biologically effective dose (haemoglobin adducts, urinary mutagenicity), biological effects (chromosomal aberrations and health effects), and individual susceptibility (genotypes of xenobiotic-metabolizing enzymes) were determined. Haemoglobin-adducts of TNT, 4-amino-2,6-dinitrotoluene (4ADNT) and 2-amino-4,6-dinitrotoluene (2ADNT), and the urinary metabolites of TNT, 4ADNT and 2ADNT, were found in all workers and in some controls. The levels of the haemoglobin-adducts or the urinary metabolites correlated weakly with the skin or air levels of TNT. The urinary mutagenicity determined in a subset of workers correlated strongly with the levels of 4ADNT and 2ADNT in urine. The haemoglobin-adducts correlated moderately with the urinary metabolites and with the urinary mutagenicity. The genotypes of glutathione S-transferases (GSTM1, GSTT1, GSTP1) and N-acetyltransferases (NAT1, NAT2) were determined. In general, the genotypes did not significantly influence the haemoglobin-adduct levels and the urine metabolite levels. However, TNT-exposed workers who carried the NAT1 rapid acetylator genotype showed an increase in urinary mutagenicity and chromosomal aberrations as compared with slow acetylators. The haemoglobin adduct 4ADNT was significantly associated with a risk of hepatomegaly, splenomegaly and cataract; urine metabolites and genotypes were not associated with health effects. These results indicate that a set of well-selected biomarkers may be more informative regarding exposure and effect than routinely performed chemical measurements of pollutants in the air or on the skin.     

Comparison of biomarkers in workers exposed to 2,4,6-trinitrotoluene

2,4,6-Trinitrotoluene (TNT) is an important occupational and environmental pollutant. In TNT-exposed humans, notable toxic manifestations have included aplastic anaemia, toxic hepatitis, cataracts, hepatomegaly, and liver cancer. Therefore, methods were developed to biomonitor workers exposed to TNT. The workers were employed in a typical ammunition factory in China. The external dose (air levels and skin exposure), the internal dose (urinary metabolites), the biologically effective dose (haemoglobin adducts, urinary mutagenicity), biological effects (chromosomal aberrations and health effects), and individual susceptibility (genotypes of xenobiotic-metabolizing enzymes) were determined. Haemoglobin-adducts of TNT, 4-amino-2,6-dinitrotoluene (4ADNT) and 2-amino-4,6-dinitrotoluene (2ADNT), and the urinary metabolites of TNT, 4ADNT and 2ADNT, were found in all workers and in some controls. The levels of the haemoglobin-adducts or the urinary metabolites correlated weakly with the skin or air levels of TNT. The urinary mutagenicity determined in a subset of workers correlated strongly with the levels of 4ADNT and 2ADNT in urine. The haemoglobin-adducts correlated moderately with the urinary metabolites and with the urinary mutagenicity. The genotypes of glutathione S-transferases (GSTM1, GSTT1, GSTP1) and N-acetyltransferases (NAT1, NAT2) were determined. In general, the genotypes did not significantly influence the haemoglobin-adduct levels and the urine metabolite levels. However, TNT-exposed workers who carried the NAT1 rapid acetylator genotype showed an increase in urinary mutagenicity and chromosomal aberrations as compared with slow acetylators. The haemoglobin adduct 4ADNT was significantly associated with a risk of hepatomegaly, splenomegaly and cataract; urine metabolites and genotypes were not associated with health effects. These results indicate that a set of well-selected biomarkers may be more informative regarding exposure and effect than routinely performed chemical measurements of pollutants in the air or on the skin.     

Urinary metabolites and health effects in workers exposed chronically to chloronitrobenzene

For workers exposed to 4-chloronitrobenzene (4CNB), the major metabolites were determined. Urine were analysed before and after acid hydrolysis to qualify the free and conjugated metabolites of 4CNB. Three conjugated metabolites were identified in exposed workers: the mercapturic acid N-acetyl-S-(4-nitrophenyl)-L-cysteine (NANPC) was the only metabolite detected in non-hydrolysed urine, and accounted for approximately 51% of the total metabolites detected. The two remaining metabolites 4-chloroaniline (4CA) and 2-chloro-5-nitrophenol (CNP) were identified as cleavage products in hydrolysed urine, and accounted for approximately 18 and 30% of the total metabolites detected, respectively. No metabolites were found in factory controls within the limits of quantitation (LOQ) of the assay. There is a moderate correlation between NANPC and both 4CA and CNP. The correlation between 4CA and CNP is minor. The correlation between the total metabolites and both 4CA and CNP are good. The best correlation was found between the total metabolites and NANPC. There is a moderate inverse correlation between age and the creatinine levels. The raw metabolite levels CNP and NANPC decrease with age. 4CA, NANPC and the total metabolite levels correlate with the haemoglobin adduct levels . The urine metabolites increase and correlate significantly with the creatinine levels. NANPC is the most appropriate biomarker in the urine for a recent absorbed dose of 4CNB, since NANPC reflects the levels of 4CA and CNP and is the most prevalent metabolite detected in all the exposed workers.