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CYP4F2 对叶绿醌的 ω-羟化作用不受 α-生育酚的影响。

ω-Hydroxylation of phylloquinone by CYP4F2 is not increased by α-tocopherol.

机构信息

Linus Pauling Institute, Oregon State University, Corvallis, OR, USA; Nutrition Graduate Program, School of Biological and Population Health Sciences Oregon State University, Corvallis, OR, USA.

出版信息

Mol Nutr Food Res. 2013 Oct;57(10):1785-93. doi: 10.1002/mnfr.201200797. Epub 2013 May 3.

DOI:10.1002/mnfr.201200797

PMID:23650179

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3833818/

Abstract

SCOPE

The objective of this study was to investigate the initial catabolic step of vitamin E and K metabolism, the ω-hydroxylation by human cytochrome P450 4F2 (CYP4F2).

METHODS AND RESULTS

Tocopherol (T) metabolism was compared using rat liver slices incubated with deuterated (d₆)-RRR-α-T (d₆-α-T), racemic 2S-α-T (2S, 4'RS, 8'RS α-T, 2S-α-T), or d₂-γ-T (d₂-γ-T). Following comparable uptake of each T by liver slices, twice as much 13'-OH-T was produced from 2S-α-T or d₂-γ-T (39 ± 15 or 42 ± 5 pmol/g liver, respectively) as from d₆-α-T (17 ± 2, p < 0.01). Kinetic studies were conducted using insect microsomes expressing human CYP4F2 incubated with d₄-phylloquinone (d₄-PK), d₆-RRR-α-T, d₃-SRR-α-T, or d₂-γ-T. CYP4F2 demonstrated similar apparent maximal velocities (Vmax) when either of the α-Ts were used as substrates, which were less than the apparent d₄-PK Vmax (p < 0.0002), while the CYP4F2 catalytic efficiency toward d₄-PK (15.8 Vmax/Km) was five times greater than for α-Ts. Vitamin K had no effect on vitamin E catabolism, while vitamin E slightly decreased the d₄-PK Vmax.

CONCLUSION

CYP4F2 discriminates between Ts and PK in vitro, but α-T does not apparently increase PK ω-hydroxylation by this mechanism.

摘要

范围

本研究的目的是研究维生素 E 和 K 代谢的初始分解代谢步骤，即人细胞色素 P450 4F2（CYP4F2）的 ω-羟化作用。

方法和结果

使用大鼠肝切片孵育氘代（d₆）-RRR-α-T（d₆-α-T）、外消旋 2S-α-T（2S，4'RS，8'RS α-T，2S-α-T）或 d₂-γ-T（d₂-γ-T）比较生育酚（T）代谢。在肝切片摄取每种 T 后，2S-α-T 或 d₂-γ-T（分别为 39 ± 15 或 42 ± 5 pmol/g 肝，p < 0.01）产生的 13'-OH-T 是 d₆-α-T 的两倍（17 ± 2）。使用表达人 CYP4F2 的昆虫微粒体进行动力学研究，孵育 d₄-叶绿醌（d₄-PK）、d₆-RRR-α-T、d₃-SRR-α-T 或 d₂-γ-T。当使用α-T 作为底物时，CYP4F2 表现出相似的表观最大速度（Vmax），这小于 d₄-PK 的表观 Vmax（p < 0.0002），而 CYP4F2 对 d₄-PK 的催化效率（15.8 Vmax/Km）是 α-Ts 的五倍。维生素 K 对维生素 E 分解代谢没有影响，而维生素 E 则略微降低了 d₄-PK 的 Vmax。

结论

CYP4F2 在体外区分 Ts 和 PK，但 α-T 似乎不会通过这种机制增加 PK ω-羟化作用。

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CYP4F2 对叶绿醌的 ω-羟化作用不受 α-生育酚的影响。

ω-Hydroxylation of phylloquinone by CYP4F2 is not increased by α-tocopherol.

机构信息

出版信息

SCOPE

METHODS AND RESULTS

CONCLUSION

范围

方法和结果

结论

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