EC:1.13.11.12 - FACTA Search

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Query: EC:1.13.11.12 (lipoxygenase)
8,696 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epoxidation of aldrin was studied using highly purified soybean lipoxygenase in the presence of linoleic acid. Dieldrin, the primary stable reaction product, was quantified by electron-capture gas chromatography. The oxidation of aldrin to dieldrin was dependent on the concentration of linoleic acid, aldrin, and enzyme. The epoxidation was linear with time and exhibited a pH optimum of 7.4. The optimal conditions to observe maximum enzyme velocity included the presence of 0.25 mM linoleic acid, 200 microM aldrin, and 20 nM enzyme. Lipoxygenase inhibitors nordihydroguaiaretic acid, phenidone, 5,8,11-eicosatriynoic acid, and 5,8,11,14-eicosatetraynoic acid significantly inhibited epoxidation in a dose-dependent manner. Catalytic potential of lipoxygenase as expressed in terms of its turnover numbers was approximately 4.0 nmol/min/nmol of enzyme, and it appears that lipoxygenase is up to 20 times a better catalyst of aldrin epoxidation than cytochrome P-450. These results suggest that lipoxygenase, which is widely distributed in plants and animals, may represent yet another important pathway for epoxidation of aldrin.
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PMID:Aldrin epoxidation. Catalytic potential of lipoxygenase coupled with linoleic acid oxidation. 168 Jun 52

The rabbit renal papillary epithelial cell line PAP-HT25 accumulates sorbitol and other organic osmolytes when cultured in hypertonic media. When returned to isotonic media, PAP-HT25 cells swell because of water influx and then shrink to their normal volume because of rapid osmolyte and water efflux (volume regulatory decrease, VRD). Sorbitol efflux from PAP-HT25 cells during VRD was reduced to 18% of control by incubation of the cells with 100 microM eicosatetraynoic acid (ETYA), indicating that an enzyme that metabolizes arachidonic acid (AA) is a key component of the efflux process. Sorbitol efflux was unaffected by incubation with cyclooxygenase and lipoxygenase inhibitors but was reduced to 9% by incubation with 100 microM ketoconazole and to 37% by incubation with 100 microM SKF-525A, indicating that the cytochrome P-450 limb of the AA cascade is involved in the efflux process. The efflux of other organic osmolytes betaine and myoinositol, but not glycerolphosphorylcholine, was also inhibited by incubation with ETYA and ketoconazole.
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PMID:Activation of osmolyte efflux from cultured renal papillary epithelial cells. 174 6

Rat epidermal microsomes were incubated with [1-14C]-arachidonic acid for 30 min at 37 degrees C in the absence and presence of NADPH. The arachidonate metabolites that eluted in the "monohydroxy acid fraction" on reverse-phase high performance liquid chromatography (HPLC) were methylated, purified by straight-phase HPLC and analyzed by chromatography with standard compounds, UV spectroscopy and/or gas chromatography-mass spectrometry (GC-MS). In the absence of NADPH, epidermal microsomes converted arachidonic acid to two major products identified as 15(S)-hydroxy-5,8,11,13-eicosatetraenoic acid (15(S)-HETE) and 12(S)-hydroxy-5,8,10,14-eicosatetraenoic acid (12(S)-HETE). In the presence of NADPH, the microsomal reaction produced, besides 15(S)- and 12(S)-HETE, two less polar metabolites which were characterized as 15-hydroxy-5,8,11,-eicosatrienoic acid (15-HETrE) and 12-hydroxy-5,8,14-eicosatrienoic acid (12-HETrE). Stereochemical analysis by chiral-phase HPLC showed that the biosynthesized 12-HETrE consisted of a mixture of optical isomers in a S/R ratio of 65:35. Formation of 15- and 12-HETrE was blocked by the mixed cyclooxygenase-lipoxygenase inhibitors quercetin and phenidone but was not affected by the cyclooxygenase inhibitor indomethacin or the cytochrome P-450 monooxygenase inhibitor metyrapone. These data indicate that rat epidermal microsomes, supplemented with NADPH, are capable of metabolizing arachidonic acid to 15- and 12-HETrE. The production of these compounds may be initiated by lipoxygenase-mediated hydroperoxidation of arachidonic acid.
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PMID:NADPH-dependent formation of 15- and 12-hydroxyeicosatrienoic acid from arachidonic acid by rat epidermal microsomes. 177 88

Control mechanisms operating through a cytochrome P-450 system have emerged lately as a possible important determinant of pulmonary hemodynamics. Their action may be expressed in the adjustment of vascular tone under both physiologic and pathophysiologic conditions. One such condition is the pulmonary constrictor response to hypoxia. The identity of the effector agent, or agents, is not known, though there are data implicating monooxygenase products of arachidonic acid. From this premise, we wanted to evaluate the effect of cytochrome P-450 inhibitors on basal pulmonary vascular tone during normoxia, and their effect upon hypoxic pulmonary vasoconstriction response. Experiments were performed in an isolated, perfused lung preparation from 1- and 7-day-old piglets, and the effects of two cytochrome P-450 inhibitors (metyrapone and ketoconazole) were tested on the perfusion pressure. At 10(-5) and 10(-4) M, metyrapone caused a modest, but significant, increase in pulmonary pressure (p less than 0.05) in 7-day-old preparations, while it was without effect in the 1-day-old preparation. Similarly, ketoconazole at concentrations from 10(-6) M upwards increased the perfusion pressure in the older animal (p less than 0.01). Responses to the inhibitors were not seen in preparations that had been pretreated with a cyclooxygenase inhibitor (indomethacin, 2.8 x 10(-6) M) or a dual cyclooxygenase-lipoxygenase inhibitor (BW755C, 10(-5) M). Hypoxic vasoconstriction was marginally enhanced by 10(-4) M metyrapone, while it was affected inconsistently by 10(-5) M ketoconazole. We conclude that vasoactive agents formed through cytochrome P-450 reactions have a minor role, or no role at all, in the control of pulmonary hemodynamics in the newborn pig.
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PMID:Evidence against the involvement of a cytochrome P-450 mechanism in pulmonary hemodynamics in the newborn pig. 177 39

We investigated the effects of different polyunsaturated fatty acids (PUFAs) of the n-6 and n-3 family on the PAF and LTD4 stimulated increase in cytosolic free Ca(2+)-concentration [Ca2+]i in retinoic acid (RA) differentiated, human monocytic U937 cells. Docosahexaenoic acid (10 microM DHA) reduced the PAF induced increase in [Ca2+]i from 455 +/- 25 nM to 319 +/- 24 nM (P less than 0.01). DHA also significantly attenuated the LTD4 induced increase in [Ca2+]. However [Ca2+]i-increase stimulated by f-MLP, ATP, or ionophore A 23187 was not affected by DHA. Other PUFAs like eicosapentaenoic acid (EPA), alpha-linolenic acid (LnA), arachidonic acid (AA) or gamma-linoleic acid (LA) were ineffective. Cellular differentiation as assessed by nitrobluetetrazolium reduction and enhanced expression of specific PAF binding sites in RA treated cells were not altered by DHA. Fatty acid composition in cellular phospholipids revealed effective incorporation of each PUFA. The DHA-effect on [Ca2+]i was time dependent and occurred at 48 h, whereas the DHA-content in phospholipids reached a plateau already at 24 h. The antioxidant vitamin E, the lipoxygenase inhibitor NDGA and the cytochrome P-450 inhibitor SKF 525A completely prevented the DHA induced reduction of PAF stimulated [Ca2+]i-increase. In contrast, the cyclooxygenase inhibitor indomethacin had no effect. Our results indicate that DHA selectively reduces intracellular [Ca2+]i-increases induced by PAF and LTD4 in RA-treated U937 cells, presumably involving an oxidative modification of DHA.
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PMID:Docosahexaenoic acid inhibits PAF and LTD4 stimulated [Ca2+]i-increase in differentiated monocytic U937 cells. 183 59

The induction of lipid peroxidation in hepatic microsomes of rodents treated with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) is well documented. The potential mechanisms involved in TCDD-induced microsomal lipid peroxidation were investigated, using selected inhibitors and free radical scavengers in vitro. Rats were treated with 40 micrograms TCDD/kg orally as a single dose. Inhibitors of phospholipase A2, including a variety of phenothiazines, dibucaine, imipramine, and verapamil, inhibited in vitro microsomal lipid peroxidation in response to TCDD administration. In addition, the lipoxygenase inhibitor quercetin, and the hydrogen peroxide scavenger aminopyrine inhibited lipid peroxidation with microsomes from TCDD-treated rats. The singlet oxygen scavenger beta-carotene, the cytochrome P-450 substrate benzphetamine, and the cyclooxygenase inhibitor indomethacin produced moderate enhancement of hepatic microsomal lipid peroxidation. The results suggest that activation of phospholipase A2 may play a critical role in the metabolic events associated with hepatotoxicity and ultimate cell death produced by TCDD. The results also support the involvement of hydrogen peroxide in TCDD-induced microsomal lipid peroxidation.
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PMID:The possible role of phospholipase A2 in hepatic microsomal lipid peroxidation induced by 2,3,7,8-tetrachlorodibenzo-p-dioxin in rats. 185 7

Fatty acid hydroperoxides (lipoxygenase products) are metabolized to allene oxides by a type of dehydrase that has been detected in plants, corals, and starfish oocytes. The allene oxides are unstable epoxide precursors of more complex products such as jasmonic acid, the plant growth hormone. Characterization of the dehydrase enzyme of flaxseed revealed that it is a 55-kilodalton hemoprotein. The spectral characteristics of this dehydrase revealed it to be a cytochrome P-450. It operates with the remarkable activity of greater than or equal to 1000 turnovers per second. The results establish a new catalytic activity for a cytochrome P-450 and illustrate the cooperation of different oxygenases in pathways of fatty acid metabolism.
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PMID:Purification of an allene oxide synthase and identification of the enzyme as a cytochrome P-450. 187 34

Arachidonic acid metabolism via cyclooxygenase, lipoxygenase, and cytochrome P-450 epoxygenase was investigated in thoracic aortic tissue obtained from rabbits fed either standard rabbit chow or chow containing 2% cholesterol. Aortic strips were incubated with [14C]arachidonic acid and A23187. Metabolites from extracted media were resolved by high-pressure liquid chromatography (HPLC). Normal and cholesterol-fed rabbit aortas synthesized prostaglandins (PGs) and hydroxyeicosatetraenoic acids (HETEs). The major cyclooxygenase products were 6-keto-PGF1 alpha and PGE2. Basal aortic 6-keto-PGF1 alpha production was slightly reduced in cholesterol-fed compared with normal rabbits. 12(S)- and 15(S)-HETE were the major aortic lipoxygenase products from both normal and cholesterol-fed rabbits. The structures were confirmed by gas chromatography-mass spectrometry (GC-MS). Only cholesterol-fed rabbit aortas metabolized arachidonic acid via cytochrome P-450 epoxygenase to the epoxyeicosatrienoic acids (EETs). 14,15-, 11,12-, 8,9-, and 5,6-EET were identified based on comigration on HPLC with known 14C-labeled standards and typical mass spectra. Incubation of normal aorta with 14,15-EET decreased the basal synthesis of 6-keto-PGF1 alpha. The other EETs were without effect. The four EET regioisomers relaxed the norepinephrine-precontracted normal and cholesterol-fed rabbit aorta. The relaxation response to 14,15-EET was greater in aortas from cholesterol-fed rabbits. These studies demonstrate that hypercholesterolemia, before the development of atherosclerosis, alters arachidonic acid metabolism via both the cyclooxygenase and epoxygenase pathways.
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PMID:Enhanced synthesis of epoxyeicosatrienoic acids by cholesterol-fed rabbit aorta. 188 29

It has been previously claimed that rodent brain possesses lipoxygenase activity, based upon the structure of products which were formed from arachidonic acid and the inhibition of this activity by "lipoxygenase inhibitors." Our studies confirm that various positional isomers of hydroxyeicosatetraenoic acids (HETE) are formed (e.g., 15-, 12-, 11-, 9-, 8- and 5-HETE) by brain homogenate and that their production is inhibited by certain lipoxygenase inhibitors, such as nordihydroguaiaretic acid (NDGA) but not by cyclooxygenase or cytochrome P-450 inhibitors. However, stereochemical analysis indicated racemic distributions of these products suggesting that they were not formed by a lipoxygenase enzyme but rather by a peroxidative process. It should also be noted that the presence of 12(S)-lipoxygenase activity could be demonstrated by stereochemical analysis only when the brain was not perfused properly, indicating this activity was due to blood cell contamination. It is known that many lipoxygenase inhibitors are also capable of inhibiting peroxidative reactions apparently due to their free radical scavenging properties. For these reasons, it is essential that the stereochemical purity of purported lipoxygenase products be determined and that previous claims of lipoxygenase activity in mammalian brain be reexamined.
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PMID:Lipoxygenation in rat brain? 189 73

Pretreatment of phenylephrine (0.5 microM)-preconstricted, isolated perfused kidneys of the male rat with indomethacin (2.8 microM) or BM 13.177 (20 microM) abolished the vasoconstrictor response to arachidonic acid (AA), uncovering a vasodilator response. BW 755C (25 microM), a dual cyclooxygenase/lipoxygenase inhibitor, did not modify the vasodilator effect of AA, whereas 5,8,11,14-eicosatetraynoic acid (10 microM), which blocks all pathways of AA metabolism, abolished AA-induced vasodilation, thus suggesting the involvement of nonlipoxygenase AA metabolites. Clotrimazole (0.7 microM) and 7-ethoxyresorufin (1 microM), both considered to be specific inhibitors of the cytochrome P-450 monooxygenase enzymes, inhibited the vasodilator effect, suggesting that AA-induced renal vasodilation is mediated by one or more cytochrome P-450-derived AA metabolites. None of these interventions affected the vasodilator responses to acetylcholine (100 ng) and nitroprusside (1 microgram). Denudation of the endothelium with CHAPS (10 mg/l) reduced the vasodilator responses to AA, suggesting a requirement of an intact endothelium, whereas inhibition of guanylate cyclase with methylene blue (10(-4) M) was without effect, suggesting that cGMP was not involved in the vasodilator response to AA. The AA-induced renal vasodilation was accompanied by the generation of biologically active material or materials released into the renal effluent, which relaxed endothelium-intact and endothelium-denuded rings of isolated aorta and mesenteric and celiac arteries of the rabbit. These results suggest that in the rat kidney, AA is metabolized by endothelial cytochrome P-450-dependent enzymes to vasodilator metabolites.
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PMID:Cytochrome P-450-dependent vasodilator responses to arachidonic acid in the isolated, perfused kidney of the rat. 190 Dec 56

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