Epoxide hydrolase 1 is an enzyme encoded by the EPHX1 gene in humans.[5][6]
Function
editEpoxide hydrolase plays an important role in both the activation and detoxification of exogenous chemicals such as polycyclic aromatic hydrocarbons.[6]
Discovery
editMicrosomal epoxide hydrolase 1 (EPHX1) was first isolated by Watabe and Kanehira from rabbit liver [7] and later also purified from human liver and characterized.[8] EPHX1 belongs to the family of α/β hydrolases [9] and converts epoxides to diols.[10]
Tissue distribution
editEPHX1 protein can be found predominantly in the membrane fraction of the endoplasmic reticulum of eucaryotic cells. Its expression in mammals is generally the highest in the liver, followed by adrenal gland, lung, kidney, and intestine.[11] It was found also in bronchial epithelial cells [12] and upper gastrointestinal tract.[13] EPHX1 expression is individually variable among humans [14] and it can be modestly induced by chemicals as phenobarbital, β-naphtoflavone, benzanthracene, trans-stilbene oxide, etc.[15]
Gene structure and ontology
editHuman EPHX1 orthologues were found in 127 organisms. Human microsomal epoxide hydrolase is coded by EPHX1 gene located on chromosome 1 (1q42.12).[16][17][18] Three transcription variants differing in the 5´-untranslated region have been identified with length of 455 amino acids.
Function
editConversion of epoxides to trans-dihydrodiols presents prototypical EPHX1 reaction.[10] EPHX1 has broad substrate specificity.[19][20] EPHX1 detoxifies low molecular weight chemicals, e.g., butadiene, benzene, styrene, etc.,[21] but more complex compounds as polycyclic aromatic hydrocarbons are rather bioactivated to genotoxic species.[22][23]
EPHX1 mediates the sodium-dependent transport of bile acids into hepatocytes.[24] Androstene oxide and epoxyestratrienol have been shown as endogenous EPHX1 substrates.[25][26] EPHX1 also metabolizes endocannabinoid 2-arachidonoylglycerol to arachidonic acid[27] and may play an important role in the endocannabinoid signaling pathway.
Clinical significance
editMutations in EPHX1 have been linked with preeclampsia,[28][29] elevated blood levels of bile salts (i.e. hypercholanemia),[30] Fetal hydantoin syndrome,[31] and diphenylhydantoin toxicity. Functional single nucleotide polymorphisms (SNPs) in EPHX1 have been found and frequently studied.[32] Two SNPs - Y113H (rs1051740, T337C) and H139R (rs2234922, A416G) – seemed to influence EPHX1 activity in vitro [33] and their combination was used for deduction of EPHX1 activity.[34] However, their functional effect was not confirmed in human liver microsomes.[35]
Due to the EPHX1 role in metabolism of procarcinogens and existence of gene variations with functional effect a number of association studies has been conducted. Significant associations between EPHX1 SNPs and risk of lung, upper aerodigestive tract, breast, and ovarian cancers have been observed in various populations.[36][37][38][39][40] Meta-analyses confirmed associations of rs1051740 and rs2234922 SNPs with the risk of lung cancer.[41][42][43] Meta-analyses reporting no association of these SNPs with esophageal and hepatocellular cancer risk have been reported as well [44][45]). Genetically predicted low EPHX1 activity was associated with increased risk of developing tobacco-related cancer in smokers from 47089 Danish individuals .[46] Recent meta-analysis comprising 8,259 patients with chronic obstructive pulmonary disease (COPD) and 42,883 controls reported that the predicted slow activity EPHX1 phenotype is a significant risk factor for COPD in Caucasian, but not in Asian population.[47] Role of EPHX1 expression in pathogenesis of neurodegeneration as Alzheimer´s disease,[48] methamphetamine-induced drug dependence,[49] and cerebral metabolism of epoxyeicosatrienoic acids [50] was suggested. Modulation of metabolism of epoxyeicosatrienoic acids by EPHX1 may interfere with, e.g., signal transmission of neurons, vasodilation, cardiovascular homeostasis, and inflammation. Transformation of the current knowledge about EPHX1 into clinical applications is, however, limited by the lack of crystal structure of the enzyme and by the complex relations between its genotype and phenotype.
Notes
edit
The 2015 version of this article was updated by an external expert under a dual publication model. The corresponding academic peer reviewed article was published in Gene and can be cited as: Radka Václavíková, David J Hughes, Pavel Souček (15 October 2015). "Microsomal epoxide hydrolase 1 (EPHX1): Gene, structure, function, and role in human disease". Gene. Gene Wiki Review Series. 571 (1): 1–8. doi:10.1016/J.GENE.2015.07.071. ISSN 0378-1119. PMC 4544754. PMID 26216302. Wikidata Q28608628. |
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Further reading
edit- Seidegård J, Ekström G (1997). "The role of human glutathione transferases and epoxide hydrolases in the metabolism of xenobiotics". Environ. Health Perspect. 105 (Suppl 4): 791–9. doi:10.2307/3433285. JSTOR 3433285. PMC 1470052. PMID 9255563.
- Wormhoudt LW, Commandeur JN, Vermeulen NP (1999). "Genetic polymorphisms of human N-acetyltransferase, cytochrome P450, glutathione-S-transferase, and epoxide hydrolase enzymes: relevance to xenobiotic metabolism and toxicity". Crit. Rev. Toxicol. 29 (1): 59–124. doi:10.1080/10408449991349186. PMID 10066160.
- Wilson NM, Omiecinski CJ (1989). "Xenobiotic microsomal epoxide hydrolase: 5' sequence of the human gene". Biochim. Biophys. Acta. 1008 (3): 357–8. doi:10.1016/0167-4781(89)90029-8. PMID 2758034.
- Strickler SM, Dansky LV, Miller MA, Seni MH, Andermann E, Spielberg SP (1985). "Genetic predisposition to phenytoin-induced birth defects". Lancet. 2 (8458): 746–9. doi:10.1016/S0140-6736(85)90629-4. PMID 2864485. S2CID 1073260.
- Jackson MR, Craft JA, Burchell B (1987). "Nucleotide and deduced amino acid sequence of human liver microsomal epoxide hydrolase". Nucleic Acids Res. 15 (17): 7188. doi:10.1093/nar/15.17.7188. PMC 306212. PMID 3502697.
- Hassett C, Robinson KB, Beck NB, Omiecinski CJ (1994). "The human microsomal epoxide hydrolase gene (EPHX1): complete nucleotide sequence and structural characterization". Genomics. 23 (2): 433–42. doi:10.1006/geno.1994.1520. PMID 7835893.
- McGlynn KA, Rosvold EA, Lustbader ED, Hu Y, Clapper ML, Zhou T, Wild CP, Xia XL, Baffoe-Bonnie A, Ofori-Adjei D (1995). "Susceptibility to hepatocellular carcinoma is associated with genetic variation in the enzymatic detoxification of aflatoxin B1". Proc. Natl. Acad. Sci. U.S.A. 92 (6): 2384–7. Bibcode:1995PNAS...92.2384M. doi:10.1073/pnas.92.6.2384. PMC 42488. PMID 7892276.
- Gaedigk A, Spielberg SP, Grant DM (1994). "Characterization of the microsomal epoxide hydrolase gene in patients with anticonvulsant adverse drug reactions". Pharmacogenetics. 4 (3): 142–53. doi:10.1097/00008571-199406000-00005. PMID 7920694.
- Krovat BC, Tracy JH, Omiecinski CJ (2000). "Fingerprinting of cytochrome P450 and microsomal epoxide hydrolase gene expression in human blood cells". Toxicol. Sci. 55 (2): 352–60. doi:10.1093/toxsci/55.2.352. PMID 10828267.
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- Belmahdi F, Chevalier D, Lo-Guidice JM, Allorge D, Cauffiez C, Lafitte JJ, Broly F (2000). "Identification of 6 new polymorphisms, g.11177G>A, g.14622C>T (R49C), g.17540T>C, g.17639T>C, g.30929T>C, g.31074G>A (R454Q), in the human microsomal epoxide hydrolase gene (EPHX1) in a French population". Hum. Mutat. 16 (5): 450. doi:10.1002/1098-1004(200011)16:5<450::AID-HUMU28>3.0.CO;2-1. PMID 11058921. S2CID 26515784.
- Sarmanová J, Benesová K, Gut I, Nedelcheva-Kristensen V, Tynková L, Soucek P (2001). "Genetic polymorphisms of biotransformation enzymes in patients with Hodgkin's and non-Hodgkin's lymphomas". Hum. Mol. Genet. 10 (12): 1265–73. doi:10.1093/hmg/10.12.1265. PMID 11406608.
- Farin FM, Janssen P, Quigley S, Abbott D, Hassett C, Smith-Weller T, Franklin GM, Swanson PD, Longstreth WT, Omiecinski CJ, Checkoway H (2001). "Genetic polymorphisms of microsomal and soluble epoxide hydrolase and the risk of Parkinson's disease". Pharmacogenetics. 11 (8): 703–8. doi:10.1097/00008571-200111000-00009. PMID 11692079.