大鼠模型中，骨髓和肝脏中的微核与同时接触氯仿、二氯甲烷和甲苯所致的肝脏代谢及抗氧化反应的关系。

Micronuclei in bone marrow and liver in relation to hepatic metabolism and antioxidant response due to coexposure to chloroform, dichloromethane, and toluene in the rat model.

作者信息

Belmont-Díaz Javier, López-Gordillo Ana Paulina, Molina Garduño Eunice, Serrano-García Luis, Coballase-Urrutia Elvia, Cárdenas-Rodríguez Noemí, Arellano-Aguilar Omar, Montero-Montoya Regina D

机构信息

Departamento de Medicina Genómica y Toxicología Ambiental, Instituto de Investigaciones Biomédicas, Universidad Nacional Autónoma de México, Apartado Postal 70228, 04510 México, DF, Mexico ; Departamento de Bioquímica, Instituto Nacional de Cardiología Ignacio Chávez, Juan Badiano No. 1, Tlalpan, 14080 México, DF, Mexico.

Departamento de Medicina Genómica y Toxicología Ambiental, Instituto de Investigaciones Biomédicas, Universidad Nacional Autónoma de México, Apartado Postal 70228, 04510 México, DF, Mexico.

出版信息

Biomed Res Int. 2014;2014:425070. doi: 10.1155/2014/425070. Epub 2014 May 14.

DOI:10.1155/2014/425070

PMID:24949447

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4053251/

Abstract

Genotoxicity in cells may occur in different ways, direct interaction, production of electrophilic metabolites, and secondary genotoxicity via oxidative stress. Chloroform, dichloromethane, and toluene are primarily metabolized in liver by CYP2E1, producing reactive electrophilic metabolites, and may also produce oxidative stress via the uncoupled CYP2E1 catalytic cycle. Additionally, GSTT1 also participates in dichloromethane activation. Despite the oxidative metabolism of these compounds and the production of oxidative adducts, their genotoxicity in the bone marrow micronucleus test is unclear. The objective of this work was to analyze whether the oxidative metabolism induced by the coexposure to these compounds would account for increased micronucleus frequency. We used an approach including the analysis of phase I, phase II, and antioxidant enzymes, oxidative stress biomarkers, and micronuclei in bone marrow (MNPCE) and hepatocytes (MNHEP). Rats were administered different doses of an artificial mixture of CLF/DCM/TOL, under two regimes. After one administration MNPCE frequency increased in correlation with induced GSTT1 activity and no oxidative stress occurred. Conversely, after three-day treatments oxidative stress was observed, without genotoxicity. The effects observed indicate that MNPCE by the coexposure to these VOCs could be increased via inducing the activity of metabolism enzymes.

摘要

细胞中的遗传毒性可能以不同方式发生，包括直接相互作用、亲电代谢产物的产生以及通过氧化应激产生的继发性遗传毒性。氯仿、二氯甲烷和甲苯主要在肝脏中由CYP2E1代谢，产生具有反应活性的亲电代谢产物，并且还可能通过解偶联的CYP2E1催化循环产生氧化应激。此外，GSTT1也参与二氯甲烷的活化。尽管这些化合物存在氧化代谢并产生氧化加合物，但其在骨髓微核试验中的遗传毒性尚不清楚。这项工作的目的是分析共同暴露于这些化合物所诱导的氧化代谢是否会导致微核频率增加。我们采用了一种方法，包括分析I相、II相和抗氧化酶、氧化应激生物标志物以及骨髓（MNPCE）和肝细胞（MNHEP）中的微核。在两种给药方案下，给大鼠施用不同剂量的CLF/DCM/TOL人工混合物。单次给药后，MNPCE频率与诱导的GSTT1活性相关增加，且未发生氧化应激。相反，在三天治疗后观察到氧化应激，但无遗传毒性。观察到的结果表明，共同暴露于这些挥发性有机化合物可能通过诱导代谢酶的活性增加MNPCE。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8b19/4053251/1de544e5be8b/BMRI2014-425070.001.jpg

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大鼠模型中，骨髓和肝脏中的微核与同时接触氯仿、二氯甲烷和甲苯所致的肝脏代谢及抗氧化反应的关系。

Micronuclei in bone marrow and liver in relation to hepatic metabolism and antioxidant response due to coexposure to chloroform, dichloromethane, and toluene in the rat model.

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