Metabolic Activation of 2-Methylfuran to Acetylacrolein and Its Reactivity toward Cellular Proteins.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Verena Schäfer, Simone Stegmüller, Hanna Becker, Elke Richling
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Abstract

2-Methylfuran (2-MF) is a process-related contaminant found primarily in heat-treated foods, such as coffee or canned food. The oxidative metabolic activation of 2-MF is supposed to follow the pathway established for furan, which is known to generate the highly reactive metabolite butenedial (BDA). In the case of 2-MF, generation of the BDA homologue 3-acetylacrolein (AcA) is to be expected. 2-MF metabolism to AcA was investigated in two model systems: commercial microsomal preparations and primary rat hepatocytes (pRH). To scavenge the generated 2-MF, two model nucleophils, N-acetyl-l-cysteine (AcCys) and N-α-acetyl-l-lysine (AcLys), were used, and the formation of the corresponding adducts was measured in the supernatants. The metabolic activation of 2-MF to AcA was studied using human liver microsomes as well as rat liver microsomes. Incubation of 2-MF in Supersomes allowed to identify the cytochrome P450 isoenzyme primarily responsible for 2-MF. In addition, primary rat hepatocytes were incubated with 2-MF or AcA and AcLys adduct of AcA (N-α-acetyl-l-lysine-acetylacrolein, AcLys-AcA) determined in the cell supernatants by UHPLC-MS/MS. In model experiments, AcA formed adducts with AcCys and AcLys. The structures of both adducts were characterized. For incubations in biological activating systems, CYP 2E1 was found to be a key enzyme for the conversion of 2-MF to AcA in Supersomes. When pRH were incubated with 2-MF and AcA, AcLys-AcA was detected in the cell supernatants in a time- and dose-dependent manner. The results showed that AcA was indeed formed at the cellular level. In contrast to the AcLys-AcA adduct, no N-acetyl-l-cysteine-acetylacrolein (AcCys-AcA) adduct could be detected in pRH. AcA was determined as a reactive metabolite of 2-MF in vitro, and its adduct formation with nucleophilic cellular components was evaluated. The metabolites were characterized, and AcLys-AcA was identified as potential biomarker.

Abstract Image

2 甲基呋喃经代谢活化生成乙酰丙烯醛及其与细胞蛋白质的反应性。
2 甲基呋喃(2-MF)是一种与加工过程有关的污染物,主要存在于咖啡或罐头食品等热处理食品中。2-MF 的氧化代谢活化过程应该遵循为呋喃建立的途径,众所周知,呋喃会产生高活性代谢物丁二醛(BDA)。在 2-MF 的情况下,预计会产生 BDA 的同系物 3-乙酰丙烯醛(AcA)。我们在两个模型系统中研究了 2-MF 向 AcA 的代谢过程:商业微粒体制备物和原代大鼠肝细胞(pRH)。为了清除生成的 2-MF,使用了 N-乙酰基-l-半胱氨酸(AcCys)和 N-α-乙酰基-l-赖氨酸(AcLys)这两种亲核物模型,并测量了上清液中相应加合物的形成。利用人体肝脏微粒体和大鼠肝脏微粒体研究了 2-MF 转化为 AcA 的代谢活化过程。在超级微粒体中培养 2-MF 可以确定主要负责 2-MF 的细胞色素 P450 同工酶。此外,用 2-MF 或 AcA 培养原代大鼠肝细胞,并通过超高效液相色谱-质谱/质谱测定细胞上清液中 AcA 的 AcLys 加合物(N-α-乙酰基-赖氨酸-乙酰基丙烯醛,AcLys-AcA)。在模型实验中,AcA 与 AcCys 和 AcLys 形成了加合物。对这两种加合物的结构进行了鉴定。在生物活化系统的孵育过程中,发现 CYP 2E1 是超微体中 2-MF 转化为 AcA 的关键酶。当 pRH 与 2-MF 和 AcA 一起孵育时,在细胞上清液中检测到的 AcLys-AcA 与时间和剂量有关。结果表明,AcA 确实是在细胞水平形成的。与 AcLys-AcA 加合物相反,在 pRH 中检测不到 N-乙酰基-半胱氨酸-乙酰丙烯醛(AcCys-AcA)加合物。经测定,AcA 是 2-MF 在体外的活性代谢物,并对其与亲核细胞成分形成的加合物进行了评估。对这些代谢物进行了表征,并确定 AcLys-AcA 为潜在的生物标记物。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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