四种模型系统中阿苯达唑细胞毒性在代谢物形成方面的比较

Comparison of Albendazole Cytotoxicity in Terms of Metabolite Formation in Four Model Systems.

作者信息

Radko Lidia, Minta Maria, Jedziniak Piotr, Stypuła-Tręba Sylwia

机构信息

Department of Pharmacology and Toxicology, National Veterinary Research Institute, 24-100 Pulawy, Poland.

出版信息

J Vet Res. 2017 Sep 19;61(3):313-319. doi: 10.1515/jvetres-2017-0042. eCollection 2017 Sep.

DOI:10.1515/jvetres-2017-0042

PMID:29978089

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5894428/

Abstract

INTRODUCTION

Albendazole is used to treat endoparasitic diseases in animals and humans. After oral administration, it is quickly oxidised into its pharmacologically active metabolite albendazole sulfoxide and then to sulfone. However, it is not clear which compound is responsible for toxic effects towards mammalian cells.

MATERIAL AND METHODS

The model systems comprised cultures of isolated rat hepatocytes, two hepatoma cell lines (FaO, HepG2), and non-hepatic Balb/c 3T3 line. Cells were exposed for 24, 48, and 72 h to eight concentrations of albendazole ranging from 0.05 to 100 µg/mL. At all three time points cytotoxic effects were assessed by MTT assay and metabolites in the culture media were determined by LC-MS/MS analysis.

RESULTS

The effective concentrations EC showed that Balb/c 3T3 cells were the most sensitive to albendazole (0.2 ±0.1 µg/mL) followed by FaO (1.0 ±0.4 µg/mL), and HepG2 (6.4 ±0.1 µg/mL). In the case of isolated hepatocytes this value could not be attained up to the highest concentration used. Chemical analysis revealed that the concentrations of albendazole in hepatocytes and HepG2 and FaO culture media gradually decreased with incubation time, while the concentrations of its metabolites increased. The metabolism in isolated hepatocytes was dozens of times greater than in HepG2 and FaO cells. Two metabolites (albendazole sulfoxide, albendazole sulfone) were detected in isolated hepatocytes and HepG2 culture medium, one (albendazole sulfoxide) in FaO culture medium and none in Balb/c 3T3.

CONCLUSION

The obtained data indicate that metabolism of albendazole leads to its detoxification. The lower cytotoxic potential of metabolites was confirmed in the independent experiments in this study.

摘要

引言

阿苯达唑用于治疗动物和人类的体内寄生虫病。口服后，它会迅速氧化成其药理活性代谢物阿苯达唑亚砜，然后再氧化成砜。然而，尚不清楚哪种化合物对哺乳动物细胞具有毒性作用。

材料与方法

模型系统包括分离的大鼠肝细胞培养物、两种肝癌细胞系（FaO、HepG2）和非肝Balb/c 3T3细胞系。将细胞暴露于0.05至100μg/mL的八种阿苯达唑浓度下24、48和72小时。在所有三个时间点，通过MTT法评估细胞毒性作用，并通过LC-MS/MS分析测定培养基中的代谢物。

结果

有效浓度EC表明，Balb/c 3T3细胞对阿苯达唑最敏感（0.2±0.1μg/mL），其次是FaO（1.0±0.4μg/mL）和HepG2（6.4±0.1μg/mL）。对于分离的肝细胞，直至所用的最高浓度都无法达到该值。化学分析表明，肝细胞以及HepG2和FaO培养基中阿苯达唑的浓度随孵育时间逐渐降低，而其代谢物的浓度则升高。分离的肝细胞中的代谢率比HepG2和FaO细胞中的代谢率高几十倍。在分离的肝细胞和HepG2培养基中检测到两种代谢物（阿苯达唑亚砜、阿苯达唑砜），在FaO培养基中检测到一种（阿苯达唑亚砜），在Balb/c 3T3中未检测到。

结论

获得的数据表明阿苯达唑的代谢导致其解毒。本研究中的独立实验证实了代谢物较低的细胞毒性潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d616/5894428/dc3bcee2428c/jvetres-61-313-g001.jpg

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四种模型系统中阿苯达唑细胞毒性在代谢物形成方面的比较

Comparison of Albendazole Cytotoxicity in Terms of Metabolite Formation in Four Model Systems.

作者信息

机构信息

出版信息

INTRODUCTION

MATERIAL AND METHODS

RESULTS

CONCLUSION

引言

材料与方法

结果

结论

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