Birringer Marc, Pfluger Paul, Kluth Dirk, Landes Nico, Brigelius-Flohé Regina
Department of Vitamins and Atherosclerosis, German Institute of Human Nutrition, University of Potsdam, D-14558 Bergholz-Rehbruecke, Germany.
J Nutr. 2002 Oct;132(10):3113-8. doi: 10.1093/jn/131.10.3113.
The metabolism of alpha- and gamma-tocotrienol was investigated in HepG2 cells. Metabolites were identified by HPLC and gas chromatography/mass spectrometry. gamma-Tocotrienol was degraded to gamma-CEHC (carboxyethyl hydroxychroman), gamma-CMBHC (carboxymethylbutyl hydroxychroman), gamma-CMHenHC (carboxymethylhexenyl hydroxychroman), gamma-CDMOenHC (carboxydimethyloctenyl hydroxychroman) and gamma-CDMD(en)(2)HC (carboxydimethyldecadienyl hydroxychroman). alpha-Tocotrienol yielded alpha-CEHC, alpha-CMBHC, alpha-CMHenHC and alpha-CDMOenHC, whereas alpha-CDMD(en)(2)HC could not be detected. These findings demonstrate that the trienols are metabolized essentially like tocopherols, i.e., by omega-oxidation followed by beta-oxidation of the side chain. The failure to detect CMBHC with the original double bond in the side chain reveals that auxiliary enzymes are involved, as in the metabolism of unsaturated fatty acids. CMBHC were the most abundant metabolites obtained from the tocotrienols as well as from alpha-tocopherol. Quantitatively, the tocotrienols were degraded to a larger extent than their counterparts with saturated side chains. The pronounced quantitative differences in the metabolism between individual tocopherols as well as between tocotrienols and tocopherols in vitro suggest a corresponding lack of equivalence in vivo.
在HepG2细胞中研究了α-生育三烯酚和γ-生育三烯酚的代谢。通过高效液相色谱法(HPLC)和气相色谱/质谱法鉴定代谢产物。γ-生育三烯酚降解为γ-CEHC(羧乙基羟基色满)、γ-CMBHC(羧甲基丁基羟基色满)、γ-CMHenHC(羧甲基己烯基羟基色满)、γ-CDMOenHC(羧基二甲基辛烯基羟基色满)和γ-CDMD(en)(2)HC(羧基二甲基癸二烯基羟基色满)。α-生育三烯酚产生α-CEHC、α-CMBHC、α-CMHenHC和α-CDMOenHC,而未检测到α-CDMD(en)(2)HC。这些发现表明,生育三烯酚的代谢方式与生育酚基本相同,即通过ω-氧化,随后侧链进行β-氧化。未能检测到侧链带有原始双键的CMBHC,这表明与不饱和脂肪酸的代谢一样,有辅助酶参与其中。CMBHC是从生育三烯酚以及α-生育酚中获得的最丰富的代谢产物。从数量上看,生育三烯酚的降解程度比具有饱和侧链的对应物更大。体外单个生育酚之间以及生育三烯酚和生育酚之间代谢的明显数量差异表明体内相应地缺乏等效性。
