Lin_2015_Mil.Med.Res_2_13

Reference

Title : The roles of carboxylesterase and CYP isozymes on the in vitro metabolism of T-2 toxin - Lin_2015_Mil.Med.Res_2_13
Author(s) : Lin NN , Chen J , Xu B , Wei X , Guo L , Xie JW
Ref : Mil Med Res , 2 :13 , 2015
Abstract :

BACKGROUND: T-2 toxin poses a great threat to human health because it has the highest toxicity of the currently known trichothecene mycotoxins. To understand the in vivo toxicity and transformation mechanism of T-2 toxin, we investigated the role of one kind of principal phase I drug-metabolizing enzymes (cytochrome P450 [CYP450] enzymes) on the metabolism of T-2 toxin, which are crucial to the metabolism of endogenous substances and xenobiotics. We also investigated carboxylesterase, which also plays an important role in the metabolism of toxic substances.
METHODS: A chemical inhibition method and a recombinant method were employed to investigate the metabolism of the T-2 toxin by the CYP450 enzymes, and a chemical inhibition method was used to study carboxylesterase metabolism. Samples incubated with human liver microsomes were analyzed by high performance liquid chromatography-triple quadrupole mass spectrometry (HPLC- QqQ MS) after a simple pretreatment.
RESULTS: In the presence of a carboxylesterase inhibitor, only 20 % T-2 toxin was metabolized. When CYP enzyme inhibitors and a carboxylesterase inhibitor were both present, only 3 % of the T-2 toxin was metabolized. The contributions of the CYP450 enzyme family to T-2 toxin metabolism followed the descending order CYP3A4, CYP2E1, CYP1A2, CYP2B6 or CYP2D6 or CYP2C19. CONCLUSION: Carboxylesterase and CYP450 enzymes are of great importance in T-2 toxin metabolism, in which carboxylesterase is predominant and CYP450 has a subordinate role. CYP3A4 is the principal member of the CYP450 enzyme family responsible for T-2 toxin metabolism. The primary metabolite produced by carboxylesterase is HT-2, and the main metabolite produced by CYP 3A4 is 3'-OH T-2. The different metabolites show different toxicities. Our results will provide useful data concerning the toxic mechanism, the safety evaluation, and the health risk assessment of T-2 toxin.

PubMedSearch : Lin_2015_Mil.Med.Res_2_13
PubMedID: 26140218

Related information

Substrate Mycotoxin-T-2

Citations formats

Lin NN, Chen J, Xu B, Wei X, Guo L, Xie JW (2015)
The roles of carboxylesterase and CYP isozymes on the in vitro metabolism of T-2 toxin
Mil Med Res 2 :13

Lin NN, Chen J, Xu B, Wei X, Guo L, Xie JW (2015)
Mil Med Res 2 :13