CYP-specific bioactivation of four organophosphorothioate pesticides by human liver microsomes

The bioactivation of azinphos-methyl (AZIN), chlorpyrifos (CPF), diazinon (DIA), and parathion (PAR), four widely used organophosphorothioate (OPT) pesticides has been investigated in human liver microsomes (HLM). In addition, the role of human cytochrome P450 (CYPs) in OPT desulfuration at pesticid...

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Bibliographic Details
Published in:Toxicology and applied pharmacology 2003-02, Vol.186 (3), p.143-154
Main Authors: Buratti, Franca M, Volpe, Maria Teresa, Meneguz, Annarita, Vittozzi, Luciano, Testai, Emanuela
Format: Article
Language:English
Subjects:
Acetylcholinesterase - metabolism
Animals
Azinphos-methyl
Azinphosmethyl - metabolism
Biological and medical sciences
Cells, Cultured
Chlorpyrifos
Chlorpyrifos - metabolism
CYP1A2
CYP2B6
Cytochrome P-450 Enzyme System - metabolism
Desulfuration
Diazinon
Diazinon - metabolism
Female
Hepatocytes - enzymology
Hepatocytes - metabolism
Human liver
Humans
Insecticides - metabolism
Interindividual variation
Kinetics
Male
Medical sciences
Microsomes, Liver - enzymology
Microsomes, Liver - metabolism
Molecular Structure
Organophorothioate pesticides
Oxon
Parathion
Parathion - metabolism
Pesticides, fertilizers and other agrochemicals toxicology
Rats
Rats, Sprague-Dawley
Substrate Specificity
Toxicology
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Summary:The bioactivation of azinphos-methyl (AZIN), chlorpyrifos (CPF), diazinon (DIA), and parathion (PAR), four widely used organophosphorothioate (OPT) pesticides has been investigated in human liver microsomes (HLM). In addition, the role of human cytochrome P450 (CYPs) in OPT desulfuration at pesticide levels representative of human exposure have been defined by means of correlation and immunoinhibition studies. CYP-mediated oxon formation from the four OPTs is efficiently catalyzed by HLM, although showing a high variability (>40-fold) among samples. Two distinct phases were involved in the desulfuration of AZIN, DIA, and PAR, characterized by different affinity constants ( K mapp1 = 0.13–9 μM and K mapp2 = 5– 269 μM). Within the range of CPF concentrations tested, only the high-affinity component was evidenced ( K mapp1 = 0.27–0.94 μM). Oxon formation in phenotyped individual HLM showed a significant correlation with CYP1A2-, 3A4-, and 2B6-related activities, at different levels depending on the OPT concentration. Anti-human CYP1A2, 2B6, and 3A4 antibodies significantly inhibited oxon formation, showing the same OPT concentration dependence. Our data indicated that CYP1A2 is mainly involved in OPT desulfuration at low pesticide concentrations, while the role of CYP3A4 is more significant to the low-affinity component of OPT bioactivation. The contribution of CYP2B6 to total hepatic oxon formation was relevant in a wide range of pesticide concentrations, being a very efficient catalyst of both the high- and low-affinity phase. These results suggest CYP1A2 and 2B6 as possible metabolic biomarkers of susceptibility to OPT toxic effect at the actual human exposure levels.
ISSN:0041-008X
1096-0333
DOI:10.1016/S0041-008X(02)00027-3