Pharmacodynamic of the antioxidant action of alpha-tocopherol and its derivatives in liver, brain, heart and skeletal muscles.

R Bakalova, M Mileva, C Kutsev, G Zlateva, S Ribarov
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Abstract

The aim of the present work was to determine the pharmacodynamics of antioxidant effect of alpha-tocopherol and its derivatives (alpha-tocopheryl esters and chromanols with different chain-length) in the animal tissues, as well as the role of cytochrome P-450 in biotransformation of these compounds. Alpha-tocopherol and its derivatives were injected intraperitoneally in rats or mice in a single dose of 100 mmol per kg b.w. The animals were sacrificed at different time intervals (0, 1, 2, 4, 8, 12, 24, 36 hours) and the liver, heart, brain and skeletal muscles were removed, homogenized and incubated with lipid peroxidation (LPO) inducers (Fe2+ + ascorbate). LPO was evidenced by the generated malone dialdehyde (MDA). Data were expressed as percentage of LPO inhibition by alpha-tocopherol or its derivatives as compared to control group. The kinetic curves of the inhibitory action of alpha-tocopherol and its derivatives on LPO were characterized by three phases: a phase of increasing antioxidant activity, a phase of maximal antioxidant activity (about 60-95% LPO inhibition), and a phase of decreasing antioxidant activity. Alpha-tocopheryl esters possessed dynamics of antioxidant action the same as alpha-tocopherol. Therefore the hydrolysis of alpha-tocopheryl esters in animal organism is not a limiting factor for their antioxidant effect. The alpha-tocopherol derivatives with short chain-length (C1, C6) had a shorter half-life in animal tissues as compared to alpha-tocopherol or its esters. In vitro experiments showed that C1 and C6 are substrates of cytochrome P-450. In contrast, alpha-tocopherol and its esters did not bind to cytochrome P-450 even at concentrations as high as 10 mmol/l. Apparently, C1 and C6 underwent biotransformation and were excreeted more quickly from the organism.

α -生育酚及其衍生物在肝脏、大脑、心脏和骨骼肌中抗氧化作用的药效学研究。
本研究旨在研究α -生育酚及其衍生物(α -生育酚酯和不同链长的铬醇)在动物组织中的抗氧化药效学,以及细胞色素P-450在这些化合物生物转化中的作用。以100 mmol / kg b.w的剂量单次腹腔注射α -生育酚及其衍生物,在不同的时间间隔(0、1、2、4、8、12、24、36 h)处死动物,取出肝脏、心脏、大脑和骨骼肌,匀浆,用脂质过氧化(LPO)诱导剂(Fe2+ +抗坏血酸)孵育。生成的丙二醛(MDA)证明了LPO的存在。与对照组相比,数据以α -生育酚或其衍生物抑制LPO的百分比表示。α -生育酚及其衍生物对LPO抑制作用的动力学曲线表现为3个阶段:抗氧化活性增强阶段、抗氧化活性最大阶段(约抑制LPO 60-95%)和抗氧化活性下降阶段。α -生育酚酯具有与α -生育酚相同的动态抗氧化作用。因此,动物体内α -生育酚酯的水解并不是其抗氧化作用的限制因素。与α -生育酚及其酯相比,具有短链长的α -生育酚衍生物(C1, C6)在动物组织中的半衰期较短。体外实验表明,C1和C6是细胞色素P-450的底物。相比之下,α -生育酚及其酯类即使在10 mmol/l的浓度下也不能与细胞色素P-450结合。显然,C1和C6进行了生物转化,并更快地从生物体中排出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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