甲苯达唑在日本河豚体内的代谢及药代动力学

Lei Men, Yuhan Zhang, Keke Li, Zhong-yin Li, Chunbin Li, Xueyuan Zhang, Xiaojie Gong, Linlin Fang
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引用次数: 1

摘要

摘要苯并咪唑(MBZ)是一种典型的广谱苯并咪唑类药物,长期用于人兽药治疗寄生虫病,广泛应用于日本河豚(Takifugu rubripes)养殖。然而,目前还没有关于MBZ在日本河豚体内药代动力学特性的研究。此外,动物源性生食品中存在的MBZ及其代谢物代表了一个值得注意的安全问题。在这里,我们使用UPLC-Q-TOF系统研究了MBZ的代谢。此外,我们还评估了MBZ及其两种代谢物2-氨基-5(6)-苯甲酰苯并咪唑(MBZ- nh2)和5-羟基苯并咪唑(MBZ- oh)在日本河豚体内肌肉注射20 mg/kg MBZ后的药代动力学。我们检测到MBZ的3种代谢物(M1-M3),其中2-氨基-5(6)-(a-羟基苄基)苯并咪唑(M3)为首次在水生动物体内检测到。MBZ、MBZ- nh2和MBZ- oh在血浆中的分布具有血浆清除率低、分布体积适中、终末半衰期长等特点。此外,这些化合物广泛分布在肌肉中,它们被迅速清除。本研究首次对甲苯达唑在日本河豚体内的药动学和代谢进行了研究。本研究结果为MBZ在日本河豚养殖中的合理应用提供了依据,并有助于了解养殖鱼体内MBZ的代谢。
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Metabolism and pharmacokinetics of mebendazole in Japanese pufferfish (Takifugu rubripes)
Abstract As a typical and broad-spectrum benzimidazole, mebendazole (MBZ) has long been used in human and veterinary medicine to treat parasitic infestations, and is widely employed in the aquaculture of Japanese pufferfish (Takifugu rubripes). However, there have been no studies examining the pharmacokinetic characteristics of MBZ in Japanese pufferfish. Furthermore, the presence of MBZ and its metabolites in animal-derived raw food represents a notable safety concern. Here, we investigated the metabolism of MBZ using a UPLC-Q-TOF system. Additionally, we evaluated the pharmacokinetics of MBZ and two metabolites, 2-amino-5(6)-benzoylbenzimidazole (MBZ-NH2) and 5-hydroxymebendazole (MBZ-OH), in Japanese pufferfish following intramuscular injection of 20 mg/kg MBZ. We detected three metabolites of MBZ (M1–M3), among which, 2-amino-5(6)-(a-hydroxybenzyl) benzimidazole (M3) was detected in an aquatic animal for the first time. The plasma dispositions of MBZ, MBZ-NH2, and MBZ-OH were characterized by low plasma clearance, medium distribution volume, and long terminal half-life. Moreover, these compounds were widely distributed in the muscle, from which they were rapidly cleared. The pharmacokinetics and metabolism of mebendazole in Japanese pufferfish are described for the first time in this study. Our findings provide a basis for the rational application of MBZ in Japanese pufferfish farming and contribute to our understanding of the metabolism of MBZ in cultured fish.
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