Leukotriene (LT) C4 and its metabolites, LTD4 and
LTE4, are involved in the pathobiology of bronchial asthma.
LTC4 synthase is the nuclear membrane-embedded enzyme responsible
for LTC4 biosynthesis, catalyzing the conjugation of two substrates
that have considerably different water solubility; that amphipathic
LTA4 as a derivative of arachidonic acid and a water-soluble
glutathione (GSH). A previous crystal structure revealed important details of
GSH binding and implied a GSH activating function for Arg-104. In addition,
Arg-31 was also proposed to participate in the catalysis based on the putative
LTA4 binding model. In this study enzymatic assay with mutant
enzymes demonstrates that Arg-104 is required for the binding and activation of
GSH and that Arg-31 is needed for catalysis probably by activating the epoxide
group of LTA4.
PDB Reference: LTC 4 S with SeDDM, 3b29.Dodecyl--d-selenomaltoside (SeDDM) is a seleno-detergent with a -glycosidic seleno-ether in place of the ether moiety in dodecyl--d-maltoside. Selenodetergents are candidates for heavy-atom agents in experimental phasing of membrane proteins in protein crystallography. Crystals of a nuclear membraneembedded enzyme, leukotriene C 4 synthase (LTC 4 S), in complex with SeDDM were prepared and a multiwavelength anomalous diffraction (MAD) experiment was performed. The SeDDM in the LTC 4 S crystal exhibited sufficient anomalous diffraction for determination of the structure using MAD phasing.
The cysteinyl leukotrienes (cys-LTs), leukotriene C4 (LTC4) and its metabolites, LTD4 and LTE4, are proinflammatory lipid mediators in asthma and other inflammatory diseases. They are generated through the 5-lipoxygenase/LTC4 synthase (LTC4S) pathway and act via at least two distinct G protein-coupled receptors. The inhibition of human LTC4S will make a simple way to treat the cys-LT relevant inflammatory diseases. Here, we show that compounds having 5-(5-methylene-4-oxo-4,5-dihydrothiazol-2-ylamino) isophthalic acid moiety suppress LTC4 synthesis, glutathione conjugation to the precursor LTA4, in both an enzyme assay and a whole-cell assay. Hierarchical in silico screenings of 6 million compounds provided 300,000 dataset for docking, and after energy minimization based on the crystal structure of LTC4S, 111 compounds were selected as candidates for a competitive inhibitor to glutathione. One of those compounds showed significant inhibitory activity, and subsequently, its derivative 5-((Z)-5-((E)-2-methyl-3-phenylallylidene)-4-oxo-4,5-dihydrothiazol-2-ylamino) isophthalic acid (compound 1) was found to be the most potent inhibitor. The enzyme assay showed the IC50 was 1.9 µM and the corresponding 95% confidence interval was from 1.7 to 2.2 µM. The whole-cell assay showed that compound 1 was cell permeable and inhibited LTC4 synthesis in a concentration dependent manner.
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