鳟鱼肝脏S9馏分生物转化多环芳烃动力学参数的测定:对生物积累评价的意义。

Q2 Health Professions
John W Nichols, Melanie A Ladd, Patrick N Fitzsimmons
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引用次数: 25

摘要

制药工业开发的体外底物耗尽法正越来越频繁地用于支持鱼类的化学生物积累评估。然而,这些方法在高对数K低化学品中的应用面临着特殊的挑战。用鳟鱼肝脏S9馏分测定了三种多环芳烃(PAHs)的生物转化。测定的活性随孵育时间的延长而下降,当浓度大于0.5%时,丙酮(用作峰值溶剂)使活性降低。添加alamethicin(一种用于支持udp -葡萄糖醛基转移酶活性的成孔肽)也以浓度依赖的方式降低了活性。评估底物浓度对活性的依赖性,以估计每种化合物的K - M和V max值。得到的动力学常数表明,三种多环芳烃通过相同的反应途径转化,K - M与化学对数K - ow呈负相关。通过测量S9蛋白水平范围内的未结合化学物质浓度来评估结合对活性的影响。反应速率与未结合浓度成正比,除非这些浓度接近饱和水平,这直接证明了自由化学假设。这些发现表明,以前在高对数K低化合物的体外工作是在不适当的高底物浓度下进行的,导致低估了真实的体内活性。初步计算还表明,在标准化体内测试过程中,鱼类体内的多环芳烃代谢可能接近饱和,可能导致浓度依赖性积累和/或稳态积累水平高于自然环境。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Measurement of kinetic parameters for biotransformation of polycyclic aromatic hydrocarbons by trout liver S9 fractions: Implications for bioaccumulation assessment.

Measurement of kinetic parameters for biotransformation of polycyclic aromatic hydrocarbons by trout liver S9 fractions: Implications for bioaccumulation assessment.

Measurement of kinetic parameters for biotransformation of polycyclic aromatic hydrocarbons by trout liver S9 fractions: Implications for bioaccumulation assessment.

Measurement of kinetic parameters for biotransformation of polycyclic aromatic hydrocarbons by trout liver S9 fractions: Implications for bioaccumulation assessment.

In vitro substrate depletion methods developed by the pharmaceutical industry are being used with increasing frequency to support chemical bioaccumulation assessments for fish. However, the application of these methods to high log K ow chemicals poses special challenges. Biotransformation of three polycyclic aromatic hydrocarbons (PAHs) was measured using trout liver S9 fractions. Measured activity declined with incubation time and was reduced by acetone (used as a spiking solvent) at concentrations greater than 0.5%. Addition of alamethicin, a pore-forming peptide used to support UDP-glucuronosyltransferase activity, also reduced activity in a concentration-dependent manner. The substrate concentration dependence of activity was evaluated to estimate K M and V max values for each compound. Derived kinetic constants suggested that all three PAHs are transformed by the same reaction pathway and indicated an inverse correlation between K M and chemical log K ow. Binding effects on activity were evaluated by measuring unbound chemical concentrations across a range of S9 protein levels. Reaction rates were proportional to the unbound concentration except when these concentrations approached saturating levels, providing a direct demonstration of the free chemical hypothesis. These findings suggest that previous in vitro work with high log K ow compounds was conducted at inappropriately high substrate concentrations resulting in underestimation of true in vivo activity. Preliminary calculations also indicate that PAH metabolism in fish may approach saturation during standardized in vivo testing efforts, potentially resulting in concentration-dependent accumulation and/or steady-state levels of accumulation greater than those which occur in a natural setting.

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来源期刊
Applied In Vitro Toxicology
Applied In Vitro Toxicology Health Professions-Medical Laboratory Technology
CiteScore
2.70
自引率
0.00%
发文量
13
期刊介绍: Applied In Vitro Toxicology is a peer-reviewed journal providing the latest research on the application of alternative in vitro testing methods for predicting adverse effects in the pharmaceutical, chemical, and personal care industries. This Journal aims to address important issues facing the various chemical industries, including regulatory requirements; the reduction, refinement, and replacement of animal testing; new screening methods; evaluation of new cell and tissue models; and the most appropriate methods for assessing safety and satisfying regulatory demands. The Journal also delivers the latest views and opinions of developers of new models, end users of the models, academic laboratories that are inventing new tools, and regulatory agencies in the United States, Europe, Latin America, Australia and Asia. Applied In Vitro Toxicology is the journal that scientists involved with hazard identification and risk assessment will read to understand how new and existing in vitro methods are applied, and the questions for which these models provide answers. Applied In Vitro Toxicology coverage includes: -Applied in vitro toxicology industry standards -New technologies developed for applied in vitro toxicology -Data acquisition, cleaning, distribution, and best practices -Data protection, privacy, and policy -Business interests from research to product -The changing role of in vitro toxicology -Visualization and design principles of applied in vitro toxicology infrastructures -Physical interfaces and robotics -Opportunities around applied in vitro toxicology
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