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藻类肝毒素 okadaic 酸是人体细胞色素 CYP3A4 和 CYP3A5 的底物。

The algal hepatoxoxin okadaic acid is a substrate for human cytochromes CYP3A4 and CYP3A5.

机构信息

Department of Chemistry and Biochemistry, Florida International University, 11200 SW 8th St., Miami, FL 33199, USA.

出版信息

Toxicon. 2010 Feb-Mar;55(2-3):325-32. doi: 10.1016/j.toxicon.2009.08.007. Epub 2009 Aug 20.

DOI:10.1016/j.toxicon.2009.08.007
PMID:19699225
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2813889/
Abstract

The hepatotoxin okadaic acid (OA) was incubated with nine human recombinant cytochrome P450s (1A1, 1A2, 2C8, 2C9, 2C19, 2D6, 2E1, 3A4 and 3A5). Both CYP3A4 and CYP3A5 converted OA to a mixture of the same four metabolites, but incubation with CYP3A4 resulted in higher levels of conversion. Michaelis-Menten parameters, K(m) (73.4 microM) and V(max) (7.23 nmol of metabolitesnmol(-1)min(-1)) for CYP3A4 were calculated by analyzing double-reciprocal plots. LC-MS(n) analysis and chemical interconversion indicate that metabolites 2 and 3 are the 11S-hydroxy and 11R-hydroxy okadaic acid respectively, while metabolite 4 is 11-oxo okadaic acid. LC-MS(n) analysis of metabolite 1 shows a molecular ion which corresponds to an addition of 16 amu to OA, also suggesting hydroxylation, but the specific site has not been identified. The same four metabolites were produced upon incubation of okadaic acid with pooled human liver microsomes. This transformation could be completely inhibited with ketokonazole, and inhibitor of the CYP3A family of enzymes. The metabolites were determined to be only slightly less potent inhibitors of serine threonine protein phosphatase 2A (PP2A) when compared to OA. As PP2A is the principle molecular target for OA, these oxidative transformations may not effectively detoxify OA.

摘要

本文研究了肝毒素 okadaic 酸(OA)与人重组细胞色素 P450 酶 1A1、1A2、2C8、2C9、2C19、2D6、2E1、3A4 和 3A5 的相互作用。结果发现,CYP3A4 和 CYP3A5 均能将 OA 转化为四种相同的代谢物,但 CYP3A4 的转化率更高。通过分析双倒数图,计算出 CYP3A4 的米氏常数(K(m))为 73.4 μM,最大反应速度(V(max))为 7.23 nmol 代谢物·nmol(-1)·min(-1)。LC-MS(n)分析和化学转化表明,代谢物 2 和 3 分别为 11S-羟基和 11R-羟基 okadaic 酸,而代谢物 4 为 11-酮基 okadaic 酸。代谢物 1 的 LC-MS(n)分析显示,其分子离子质量增加了 16 amu,这也表明了羟基化反应,但具体的羟基化位点尚未确定。当将 okadaic 酸与混合人肝微粒体孵育时,也产生了同样的四种代谢物。酮康唑(CYP3A 酶家族的抑制剂)可完全抑制这种转化。与 OA 相比,这些代谢物对丝氨酸苏氨酸蛋白磷酸酶 2A(PP2A)的抑制作用略低。由于 PP2A 是 OA 的主要分子靶标,因此这些氧化转化可能无法有效解毒 OA。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9761/2813889/51bcbd1faec4/nihms-144984-f0001.jpg

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