Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this paper we describe the release of hepoxilin A3 (HxA3) by intact pieces of the rat thoracic aorta and its stimulation by exogenous arachidonic acid but not by the calcium ionophore A23187. Homogenates of the rat aorta metabolize HxA3 via two competing pathways; one involves hepoxilin epoxide hydrolase to form the trihydroxy metabolite, trioxilin A3 (TrXA3), and a second pathway involves conjugation of HxA3 with glutathione via glutathione S-transferase to form a glutathione conjugate, which we refer to as hepoxilin A3-C (HxA3-C), a name based upon the accepted nomenclature for the glutathione conjugate leukotriene C. The formation of HxA3-C was dependent on the presence of reduced glutathione in the incubation medium. HxA3-C formation was greatly enhanced in the presence of TCPO, an epoxide hydrolase inhibitor which blocks utilization of the substrate via hepoxilin epoxide hydrolase. Comparison of HxA3-C formation by several arteries and veins indicated that glutathione conjugation was more evident in veins than arteries. The aorta from spontaneously hypertensive rats was essentially similar in HxA3-C formation to aorta from local normotensive Wistar rats although the aorta from the normotensive Wistar Kyoto rats was much more active than aorta from either of the two other rat types. The biological activity of HxA3 and HxA3-C was investigated on isolated helicoidal strips of the rat aorta. While both compounds were inactive on their own, HxA3 and to a lesser extent HxA3-C potentiated the contractile response induced by norepinephrine. The present results provide evidence of the presence in rat aorta of a new pathway of arachidonic acid metabolism whose products may possess potential regulatory properties on vascular tissue.
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PMID:Hepoxilin A3 (HxA3) is formed by the rat aorta and is metabolized into HxA3-C, a glutathione conjugate. 167 72

Incubation of (8R)- and (8S)-[1-14C]hepoxilin A3 [where hepoxilin A3 is 8-hydroxy-11,12-epoxyeicosa-(5Z,9E,14Z)-trienoic acid] and glutathione with homogenates of rat brain hippocampus resulted in a product that was identified as the (8R) and (8S) diastereomers of 11-glutathionyl hepoxilin A3 by reversed-phase high performance liquid chromatographic comparison with the authentic standard made by total synthesis. Identity was further confirmed by cleavage of the isolated product with gamma-glutamyltranspeptidase to yield the corresponding cysteinylglycinyl conjugate that was identical by reversed-phase high performance liquid chromatographic analysis with the enzymic cleavage product derived from the synthetic glutathionyl conjugate. The glutathionyl and cysteinylglycinyl conjugate are referred to as hepoxilin A3-C and hepoxilin A3-D, respectively, by analogy with the established leukotriene nomenclature. Formation of hepoxilin A3-C was greatly enhanced with a concomitant decrease in formation of the epoxide hydrolase product, trioxilin A3, when the epoxide hydrolase inhibitor trichloropropene oxide was added to the incubation mixture demonstrating the presence of a dual metabolic pathway in this tissue involving hepoxilin epoxide hydrolase and glutathione S-transferase processes. Hepoxilin A3-C was tested using intracellular electrophysiological techniques on hippocampal CA1 neurons and found to be active at concentrations as low as 16 nM in causing membrane hyperpolarization, enhanced amplitude and duration of the post-spike train afterhyperpolarization, a marked increase in the inhibitory postsynaptic potential, and a decrease in the spike threshold. These findings suggest that these products in the hepoxilin pathway of arachidonic acid metabolism formed by the rat brain may function as neuromodulators.
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PMID:A glutathione conjugate of hepoxilin A3: formation and action in the rat central nervous system. 232 64