Biotransformation of carbamazepine and nicotine in juvenile American alligator (Alligator mississippiensis) in vitro hepatic S9 vs. in situ perfused liver

IF 3.9 3区 环境科学与生态学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
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Abstract

American alligators (Alligator mississippiensis) are apex predators and sentinel species in the coastal wetland ecosystem along the Gulf of Mexico. There is concern for alligator exposure and susceptibility to chemical contaminants due to their high trophic level and lower metabolic capability. At present, their hepatic biotransformation capacity to metabolize or detoxify contaminants has not been comprehensively determined. In this study, the hepatic biotransformation capability of juvenile American alligators to metabolize two commonly found environmental pharmaceuticals: carbamazepine (CBZ) or nicotine (NCT) was evaluated. The formation of their respective primary metabolites, i.e., carbamazepine-10,11-epoxide (CBZ-E) and cotinine (CTN), was evaluated at 10 μM (within the human therapeutic range). The in vitro S9 and a novel in situ liver perfusion assays were used to characterize and compare metabolic ability in isolated hepatic enzymes vs. whole organ (liver). For CBZ, the perfused livers exhibited only 30% of intrinsic formation clearance (CLf,int) relative to the S9 assay. The metabolism of NCT was not detectable in the S9 assay and was only observed in the perfused liver assay. Compared to the corresponding rat models (S9 or perfused livers),alligators' CLf,int was 2060% for CBZ and 50% for NCT of rats. Additionally, NCT exposure increased lactate levels in perfused livers indicating metabolic stress. This study provides insight into the hepatic capability of alligators to metabolize CBZ and NCT using an established in vitro (S9) system and a newly developed in situ liver perfusion system.

Abstract Image

幼年美洲鳄(Alligator mississippiensis)体外肝脏 S9 与原位灌注肝脏中卡马西平和尼古丁的生物转化。
美洲鳄(Alligator mississippiensis)是墨西哥湾沿岸湿地生态系统中的顶级捕食者和哨兵物种。由于短吻鳄的营养级较高,新陈代谢能力较低,因此人们担心短吻鳄会接触和易受化学污染物的影响。目前,它们代谢或解毒污染物的肝脏生物转化能力尚未得到全面测定。本研究评估了美洲短吻鳄幼体代谢两种常见环境药物:卡马西平(CBZ)或尼古丁(NCT)的肝脏生物转化能力。在 10 μM(人体治疗范围内)的条件下,评估了它们各自的主要代谢物(即卡马西平-10,11-环氧化物(CBZ-E)和可替宁(CTN))的形成情况。体外 S9 试验和新型原位肝脏灌注试验用于表征和比较离体肝酶与整个器官(肝脏)的代谢能力。对于 CBZ,相对于 S9 试验,灌注肝脏仅显示出 30% 的内在形成清除率(CLf,int)。在 S9 试验中检测不到 NCT 的代谢,只有在灌注肝脏试验中才能观察到。与相应的大鼠模型(S9 或灌注肝脏)相比,鳄鱼的 CBZ CLf,int 为 20-60%,而大鼠的 NCT CLf,int 为 50%。此外,暴露于 NCT 会增加灌注肝脏中的乳酸水平,这表明存在代谢压力。这项研究利用已建立的体外(S9)系统和新开发的原位肝脏灌注系统,深入探讨了短吻鳄代谢 CBZ 和 NCT 的肝脏能力。
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来源期刊
CiteScore
7.50
自引率
5.10%
发文量
206
审稿时长
30 days
期刊介绍: Part C: Toxicology and Pharmacology. This journal is concerned with chemical and drug action at different levels of organization, biotransformation of xenobiotics, mechanisms of toxicity, including reactive oxygen species and carcinogenesis, endocrine disruptors, natural products chemistry, and signal transduction with a molecular approach to these fields.
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