Abstract
Epoxy FAs (EpFAs) are important lipid mediators that are mainly metabolized by soluble epoxide hydrolase (sEH). Thus, sEH inhibition is a promising therapeutic target to treat numerous ailments. Several sEH polymorphisms result in amino acid substitutions and alter enzyme activity. K55R and R287Q are associated with inflammatory, cardiovascular, and metabolic diseases. R287Q seems to affect sEH activity through reducing formation of a catalytically active dimer. Thus, understanding how these SNPs affect the selectivity of sEH for substrates and inhibitors is of potential clinical importance. We investigated the selectivity of four sEH SNPs toward a series of EpFAs and inhibitors. We found that the SNPs alter the catalytic activity of the enzyme but do not alter the relative substrate and inhibitor selectivity. We also determined their dimer/monomer constants (KD/M). The WT sEH formed a very tight dimer, with a KD/M in the low picomolar range. Only R287Q resulted in a large change of the KD/M However, human tissue concentrations of sEH suggest that it is always in its dimer form independently of the SNP. These results suggest that the different biologies associated with K55R and R287Q are not explained by alteration in dimer formation or substrate selectivity.
Highlights
Epoxy FAs (EpFAs) are important lipid mediators that are mainly metabolized by soluble epoxide hydrolase
We investigated the selectivity of four soluble epoxide hydrolase (sEH) SNPs (K55R, R103C, C154Y, and R287Q) toward a series of EpFAs and inhibitors, as well as determined their dimer/monomer constants (KD/M) and the concentration of sEH in human tissue extract
K55R, R103C, and R287Q were previously shown to have a significantly lower phosphatase activity than WT (15), while we found that K55R and C1545Y have higher activity and that R103C and R287Q have lower activity than WT when assayed with a natural substrate
Summary
Epoxy FAs (EpFAs) are important lipid mediators that are mainly metabolized by soluble epoxide hydrolase (sEH). These results suggest that the different biologies associated with K55R and R287Q are not explained by alteration in dimer formation or substrate selectivity.—Morisseau, C., A. Epoxy FAs (EpFAs), such as epoxyeicosatrienoic acids (EETs) derived from arachidonic acid, are produced by cytochrome P450s and are important lipid mediators that have key roles in the regulation of hypertension, inflammation, and angiogenesis, as well as in modulating both inflammatory and neuropathic pain (1, 2) These EpFAs are mainly metabolized endogenously by soluble epoxide hydrolase (sEH; EC 3.3.2.10) yielding 1,2diols that are in general less biologically active than the original epoxides (3).
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