Hassett C, Lin J, Carty C L, Laurenzana E M, Omiecinski C J
Department of Environmental Health, University of Washington, Seattle 98105-6099, USA.
Arch Biochem Biophys. 1997 Jan 15;337(2):275-83. doi: 10.1006/abbi.1996.9794.
Interindividual variation in the expression of human microsomal epoxide hydrolase (mEH) may be an important risk factor for chemically induced toxicities, including cancer and teratogenesis. In this study, phenotypic variability and mEH genetic polymorphisms were examined in a bank of 40 transplant-quality human liver samples. Immunochemically determined protein content, enzymatic activities, polymorphic amino acids, as well as mEH RNA levels were evaluated in parallel. Enzymatic activity was assessed using (+/-)-benzo[a]pyrene-4,5-epoxide at 2 substrate concentrations. The relative hydrolyzing activities obtained using saturating substrate levels were highly correlated (r = 0.85) with results derived from limiting substrate concentrations and exhibit approximately an 8-fold range in activity levels across the panel of 40 liver samples. mEH enzyme activity also demonstrated strong correlation (r > or = 0.74) with an 8.4-fold variation determined for mEH protein content within the same samples. However, these protein/activity measurements were poorly correlated (r < or = 0.23) with mEH RNA levels, which exhibited a 49-fold variation. Two common polymorphic amino acid loci in the mEH protein did not exclusively account for variation in enzymatic activity, although this conclusion is confounded by heterozygousity in the samples. These data demonstrate the extent of hepatic mEH functional variability in well-preserved human tissues and suggest that polymorphism of mEH protein expression is regulated in part by posttranscriptional controls, which may include nonstructural regulatory regions of the mEH transcript.
人微粒体环氧化物水解酶(mEH)表达的个体间差异可能是化学物质诱发毒性(包括癌症和致畸作用)的一个重要风险因素。在本研究中,对一组40份移植级别的人肝脏样本进行了表型变异性和mEH基因多态性检测。同时评估了免疫化学测定的蛋白质含量、酶活性、多态性氨基酸以及mEH RNA水平。使用(±)-苯并[a]芘-4,5-环氧化物在2种底物浓度下评估酶活性。使用饱和底物水平获得的相对水解活性与在有限底物浓度下得到的结果高度相关(r = 0.85),并且在40份肝脏样本中活性水平呈现约8倍的范围。mEH酶活性与同一样本中mEH蛋白质含量测定的8.4倍变化也显示出强相关性(r≥0.74)。然而,这些蛋白质/活性测量值与mEH RNA水平的相关性较差(r≤0.23),mEH RNA水平呈现49倍的变化。mEH蛋白质中的两个常见多态性氨基酸位点并不能完全解释酶活性的变化,尽管该结论因样本中的杂合性而受到混淆。这些数据证明了在保存良好的人体组织中肝脏mEH功能变异性的程度,并表明mEH蛋白质表达的多态性部分受转录后调控,其中可能包括mEH转录本的非结构调控区域。
