The Tissue-Specific Eco-Exposome: Differential Pharmaceutical Bioaccumulation and Disposition in Fish among Trophic Positions

IF 3.6 4区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Jaylen L. Sims, Alexander R. Cole, Zachary S. Moran, Charles M. Mansfield, Bianca Possamai, Macarena Rojo, Ryan S. King, Cole W. Matson, Bryan W. Brooks
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Abstract

Though bioaccumulation of pharmaceuticals by aquatic organisms continues to receive scientific attention, the internal disposition of these contaminants among different tissue compartments of fish species has been infrequently investigated, particularly among fish at different trophic positions. We tested a human to fish biological read-across hypothesis for contaminant disposition by examining tissue-specific accumulation in three understudied species, longnose gar (Lepisosteus osseus; piscivore), gizzard shad (Dorosoma cepedianum; planktivore/detritivore), and smallmouth buffalo (Ictiobus bubalus; benthivore), from a river influenced by municipal effluent discharge. In addition to surface water, fish plasma, and brain, gill, gonad, liver, and lateral muscle fillet tissues were analyzed via isotope dilution liquid chromatography tandem mass spectrometry. Caffeine and sucralose, two common effluent tracers, were quantitated at low micrograms per liter levels in surface water, while an anticonvulsant, carbamazepine, was observed at levels up to 37 ng/L. The selective serotonin reuptake inhibitors (SSRIs) fluoxetine and sertraline and primary metabolites were detected in at least one tissue of all three species at low micrograms per kilogram concentrations. Within each species, brain and liver of select fish contained the highest levels of SSRIs compared to plasma and other tissues, which is generally consistent with human tissue disposition patterns. However, we observed differential accumulation among specific tissue types and species. For example, mean levels of sertraline in brain and liver tissues were 13.4 µg/kg and 1.5 µg/kg in gizzard shad and 1.3 µg/kg and 7.3 µg/kg in longnose gar, respectively. In contrast, smallmouth buffalo did not consistently accumulate SSRIs to detectable levels. Tissue-specific eco-exposome efforts are necessary to understand mechanisms associated with such marked bioaccumulation and internal dispositional differences among freshwater fish species occupying different trophic positions. Environ Toxicol Chem 2024;43:1894–1902. © 2024 The Author(s). Environmental Toxicology and Chemistry published by Wiley Periodicals LLC on behalf of SETAC.

Abstract Image

组织特异性生态暴露体:鱼类不同营养级的药物生物累积和处置差异。
尽管水生生物对药物的生物蓄积性一直受到科学界的关注,但这些污染物在鱼类物种不同组织间的内部处置却鲜有研究,尤其是在处于不同营养级的鱼类之间。我们通过研究受市政污水排放影响的河流中长鼻嘎鱼(Lepisosteus osseus; piscivore)、鰶鱼(Dorosoma cepedianum; planktivore/detritivore)和小口水牛(Ictiobus bubalus; benthivore)这三种未被充分研究的鱼类的组织特异性蓄积情况,检验了人类对鱼类污染物处置的生物交叉假说。除地表水外,还通过同位素稀释液相色谱串联质谱法分析了鱼血浆以及脑、鳃、生殖腺、肝脏和侧肌鱼片组织。咖啡因和三氯蔗糖这两种常见的污水示踪剂在地表水中的定量水平较低,仅为微克/升,而抗惊厥药卡马西平在地表水中的定量水平则高达 37 纳克/升。在所有三个物种的至少一种组织中都检测到了选择性血清素再摄取抑制剂(SSRIs)氟西汀和舍曲林及其主要代谢物,其浓度较低,为每千克微克。在每个物种中,与血浆和其他组织相比,精选鱼类的大脑和肝脏中 SSRIs 的含量最高,这与人体组织的处置模式基本一致。不过,我们观察到特定组织类型和物种之间的积累情况有所不同。例如,鰶鱼大脑和肝脏组织中舍曲林的平均含量分别为 13.4 微克/千克和 1.5 微克/千克,长鼻梭鱼分别为 1.3 微克/千克和 7.3 微克/千克。相比之下,小口水牛体内的 SSRIs 并未持续累积到可检测到的水平。有必要开展组织特异性生态外显子组研究,以了解占据不同营养级的淡水鱼类物种之间如此明显的生物累积和内部处置差异的相关机制。环境毒物化学 2024;00:1-9。© 2024 The Author(s).环境毒理学与化学》由 Wiley Periodicals LLC 代表 SETAC 出版。
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来源期刊
CiteScore
7.40
自引率
9.80%
发文量
265
审稿时长
3.4 months
期刊介绍: The Society of Environmental Toxicology and Chemistry (SETAC) publishes two journals: Environmental Toxicology and Chemistry (ET&C) and Integrated Environmental Assessment and Management (IEAM). Environmental Toxicology and Chemistry is dedicated to furthering scientific knowledge and disseminating information on environmental toxicology and chemistry, including the application of these sciences to risk assessment.[...] Environmental Toxicology and Chemistry is interdisciplinary in scope and integrates the fields of environmental toxicology; environmental, analytical, and molecular chemistry; ecology; physiology; biochemistry; microbiology; genetics; genomics; environmental engineering; chemical, environmental, and biological modeling; epidemiology; and earth sciences. ET&C seeks to publish papers describing original experimental or theoretical work that significantly advances understanding in the area of environmental toxicology, environmental chemistry and hazard/risk assessment. Emphasis is given to papers that enhance capabilities for the prediction, measurement, and assessment of the fate and effects of chemicals in the environment, rather than simply providing additional data. The scientific impact of papers is judged in terms of the breadth and depth of the findings and the expected influence on existing or future scientific practice. Methodological papers must make clear not only how the work differs from existing practice, but the significance of these differences to the field. Site-based research or monitoring must have regional or global implications beyond the particular site, such as evaluating processes, mechanisms, or theory under a natural environmental setting.
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