Identification and cross-species comparison of in vitro phase I brevetoxin (BTX-2) metabolites in northern Gulf of Mexico fish and human liver microsomes by UHPLC-HRMS(/MS)

IF 3.6 Q2 TOXICOLOGY
Jessica Kay Gwinn , Alison Robertson , Lada Ivanova , Christiane Kruse Fæste , Fedor Kryuchkov , Silvio Uhlig
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Abstract

Brevetoxins (BTX) are a group of marine neurotoxins produced by the harmful alga Karenia brevis. Numerous studies have shown that BTX are rapidly accumulated and metabolized in shellfish and mammals. However, there are only limited data on BTX metabolism in fish, despite growing evidence that fish serve as vectors for BTX transfer in marine food webs. In this study, we aimed to investigate the in vitro biotransformation of BTX-2, the major constituent of BTX profiles in K. brevis, in several species of northern Gulf of Mexico fish. Metabolism assays were performed using hepatic microsomes prepared in-house as well as commercially available human microsomes for comparison, focusing on phase I reactions mediated by cytochrome P450 monooxygenase (CYP) enzymes. Samples were analyzed by UHPLC-HRMS(/MS) to monitor BTX-2 depletion and characterize BTX metabolites based on MS/MS fragmentation pathways. Our results showed that both fish and human liver microsomes rapidly depleted BTX-2, resulting in a 72–99% reduction within 1 h of incubation. We observed the simultaneous production of 22 metabolites functionalized by reductions, oxidations, and other phase I reactions. We were able to identify the previously described congeners BTX-3 and BTX-B5, and tentatively identified BTX-9, 41,43-dihydro-BTX-2, several A-ring hydrolysis products, as well as several novel metabolites. Our results confirmed that fish are capable of similar BTX biotransformation reactions as reported for shellfish and mammals, but comparison of metabolite formation across the tested species suggested considerable interspecific variation in BTX-2 metabolism potentially leading to divergent BTX profiles. We additionally observed non-enzymatic formation of BTX-2 and BTX-3 glutathione conjugates. Collectively, these findings have important implications for determining the ecotoxicological fate of BTX in marine food webs.

Abstract Image

UHPLC-HRMS(/MS)在墨西哥湾北部鱼类和人肝微粒体中体外I期brevetoxin(BTX-2)代谢产物的鉴定和跨物种比较
Brevetoxins(BTX)是由有害藻类Karenia brevis产生的一组海洋神经毒素。大量研究表明,BTX在贝类和哺乳动物中快速积累和代谢。然而,尽管越来越多的证据表明鱼类是海洋食物网中BTX转移的载体,但关于鱼类BTX代谢的数据有限。在这项研究中,我们旨在研究短鳍金枪鱼BTX图谱的主要成分BTX-2在墨西哥湾北部几种鱼类中的体外生物转化。使用内部制备的肝微粒体和市售的人微粒体进行代谢测定以进行比较,重点是细胞色素P450单加氧酶(CYP)介导的I期反应。通过UHPLC-HRMS(/MS)分析样品,以监测BTX-2的耗竭,并基于MS/MS裂解途径表征BTX代谢产物。我们的研究结果表明,鱼类和人类肝微粒体都迅速耗尽了BTX-2,在孵育1小时内减少了72–99%。我们观察到通过还原、氧化和其他I相反应同时产生22种功能化的代谢物。我们能够鉴定先前描述的同源物BTX-3和BTX-B5,并初步鉴定了BTX-9,41,4-二氢-BTX-2、几种A环水解产物以及几种新的代谢产物。我们的研究结果证实,鱼类能够进行与贝类和哺乳动物类似的BTX生物转化反应,但对测试物种代谢产物形成的比较表明,BTX-2代谢的种间差异很大,可能导致BTX图谱的差异。我们还观察到BTX-2和BTX-3谷胱甘肽缀合物的非酶促形成。总之,这些发现对确定BTX在海洋食物网中的生态毒理学命运具有重要意义。
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来源期刊
Toxicon: X
Toxicon: X Pharmacology, Toxicology and Pharmaceutics-Toxicology
CiteScore
6.50
自引率
0.00%
发文量
33
审稿时长
14 weeks
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