CYP1A异构体在河豚(Lampetra fluviatilis)和两种硬骨鱼(Pleuronectes flesus, Anguilla Anguilla)肝脏中的催化特性

Jeanette M Rotchell , Glyn B Steventon , David J Bird
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引用次数: 29

摘要

研究了CYP1A异构体的催化活性和哺乳动物CYP1A特异性抑制剂在肝脏S9组分中的作用,研究了一种agnathan (River Lampetra fluviatilis, 30-33 cm)和两种teleoest鱼类(欧洲比目鱼,Pleuronectes flesus, 11-18 cm)和一种普通鳗鱼,Anguilla Anguilla, 31-48 cm)。在注射100 mg kg−1苯并(a)芘(B[a]P) 5天后,比目鱼的乙氧基间苯甲醚o -去甲基化(EROD)、咖啡因n -去甲基化/ c -氧化和非那西丁o -去甲基化(POD)活性增加了3 - 4倍,鳗鱼的POD活性增加了17 - 46倍。在七鳃鳗中,基础EROD活性非常低,暴露于B[a]P后活性没有增加。虽然在注射B[a]P后,每项检测的表观米切利斯常数(Km)变化很小,但在比目鱼和鳗鱼中,EROD活性的最大反应速度(Vmax)值分别增加了19倍和84倍,咖啡因相关代谢的最大反应速度(Vmax)值增加了4倍和35倍,POD活性的最大反应速度(Vmax)值分别增加了4倍和19倍。哺乳动物CYP1A2抑制剂furafylline (50 μM-1 mM)使牙鲆EROD、咖啡因和POD活性分别降至对照组的65%、21%和20%,鳗鱼的EROD、咖啡因和POD活性分别降至对照组的85%、10%和5%。相比之下,低浓度(0.025-0.050 μM)的哺乳动物CYP1A1抑制剂ellipticine完全消除了EROD活性,但对两种动物的咖啡因代谢或POD活性没有影响(高达1 mM)。虽然抑制剂研究强烈表明,在比目鱼和鳗鱼中存在两种不同的酶,但所有试验中获得的单相Michaelis-Menten动力学表明,只有一种CYP1A蛋白存在,该蛋白具有哺乳动物CYP1A1和CYP1A2亚型的底物和抑制剂特异性。
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Catalytic properties of CYP1A isoforms in the liver of an agnathan (Lampetra fluviatilis) and two species of teleost (Pleuronectes flesus, Anguilla anguilla)

The catalytic activity of CYP1A isoforms and the effect of mammalian CYP1A-specific inhibitors in liver S9 fractions were studied in an agnathan (River lamprey, Lampetra fluviatilis, 30–33 cm) and in two species of teleost fish (European flounder, Pleuronectes flesus, 11–18 cm and common eel, Anguilla anguilla, 31–48 cm). Ethoxyresorufin O-deethylation (EROD), caffeine N-demethylation/C-oxidation and phenacetin O-deethylation (POD) activity increased 3–4-fold in flounders and 17–46-fold in eels, 5 days after fish were injected (i.p.) with 100 mg kg−1 benzo(a)pyrene (B[a]P). In lampreys, basal EROD activity was very low and no increase in activity was observed following exposure to B[a]P. While the apparent Michaelis constant (Km) for each assay showed only small changes after B[a]P injection, maximum reaction velocity (Vmax) values increased by up to 19- and 84-fold for EROD activity, 4- and 35-fold for caffeine-related metabolism and 4- and 19-fold for POD activity in flounders and eels, respectively. The mammalian CYP1A2 inhibitor furafylline (50 μM–1 mM) reduced activity in the EROD, caffeine and POD assays to 65, 21 and 20% of control values in flounders and to 85, 10 and 5% of control values in eels, respectively. By contrast, low concentrations (0.025–0.050 μM) of the mammalian CYP1A1 inhibitor ellipticine completely abolished EROD activity, but had no effect (up to 1 mM) on caffeine metabolism or POD activity in either species. While the inhibitor studies strongly suggest that two separate enzymes are present in flounders and eels, the monophasic Michaelis–Menten kinetics obtained in all the assays imply that only a single CYP1A protein is present that has substrate and inhibitor specificities characteristic of both mammalian CYP1A1 and CYP1A2 isoforms.

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