EC:3.5.1.4 - FACTA Search

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Query: EC:3.5.1.4 (deaminase)
5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anandamide amidase (EC 3.5.1.4) is responsible for the hydrolysis of arachidonoyl ethanolamide (anandamide). Relatively selective and potent enzyme reversible inhibitors effective in the low micromolar range, such as arachidonyl trifluoromethyl ketone (Arach-CF3), have been described (Koutek et al., J Biol Chem 269: 22937-22940, 1994). In the current study, methyl arachidonyl fluorophosphonate (MAFP), an arachidonyl binding site directed phosphonylation reagent, was tested as an inhibitor of anandamide amidase and as a ligand for the CB1 cannabinoid receptor. MAFP was 800 times more potent than Arach-CF3 and phenylmethylsulfonyl fluoride (PMSF) as an amidase inhibitor in rat brain homogenates. In intact neuroblastoma cells, MAFP was also approximately 1000-fold more potent than Arach-CF3. MAFP demonstrated selectivity towards anandamide amidase for which it was approximately 3000 and 30,000-fold more potent than it was towards chymotrypsin and trypsin, respectively. MAFP displaced [3H]CP-55940 binding to the CB1 cannabinoid receptor with an IC50 of 20 nM vs 40 nM for anandamide. It bound irreversibly and prevented subsequent binding of the cannabinoid radioligand [3H]CP-55940 at that locus. These studies suggest that MAFP is a potent and specific inhibitor of anandamide amidase and, in addition, can interact with the cannabinoid receptors at the cannabinoid binding site. This is the first report of a potent and relatively selective irreversible inhibitor of arachidonoyl ethanolamide amidase.
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PMID:Methyl arachidonyl fluorophosphonate: a potent irreversible inhibitor of anandamide amidase. 906 28

Anandamide, an endogenous canabinoid substance, is hydrolyzed by an amidohydrolase activity present in rat brain and liver. We report that the bromoenol lactone, (E)-6-(bromomethylene) tetrahydro-3-(1-naphthalenyl)-2H-pyran-2-one (BTNP), is a potent inhibitor of this enzyme activity. BTNP prevented anandamide hydrolysis in rat brain microsomes with an IC50 of 0.8 +/- 0.3 microM. Kinetic and dialysis experiments indicated that this effect was non-competitive and irreversible. After chromatographic fractionation of the enzyme activity, BTNP was still effective, suggesting that it interacts directly with the enzyme. Anandamide hydrolysis was 12-fold greater in rat cortical neurons (1.94 +/- 0.1 pmol/min/mg protein) than in cortical astrocytes (0.16 +/- 0.01 pmol/min/mg protein) and, in either cell type, it was inhibited by BTNP (IC50 = 0.1 microM in neurons). These results suggest that BTNP may provide a useful lead for the development of novel inhibitors of anandamide hydrolysis.
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PMID:Inhibition of anandamide hydrolysis in rat brain tissue by (E)-6-(bromomethylene) tetrahydro-3-(1-naphthalenyl)-2H-pyran-2-one. 909 14

Cannabinoid receptors have been described in sea urchin sperm and shown to mediate inhibition of sperm acrosome reaction. Anandamide (arachidonoyl-ethanolamide), the mammalian physiological ligand at the cannabinoid CB1 receptor, has been subsequently found to effect this inhibition. Here we present data showing that ovaries from the sea urchin Paracentrotus lividus contain anandamide and two related acyl-ethanolamides, as well as enzymatic activities potentially responsible for their biosynthesis and degradation. Pilot experiments carried out with either ovaries or spermatozoa, extracted from both P. lividus and Arbacea lixula and radiolabelled with [14C]ethanolamine, showed that in sexually mature ovaries of both species significant levels of radioactivity were incorporated into a lipid component with the same chromatographic behaviour as anandamide. Lipid extracts from P. lividus ovaries were purified and analysed by gas chromatography/mass spectrometry which showed the presence of low but measurable amounts of anandamide, palmitoyl- and stearoyl-ethanolamides. The extracts were also found to contain lipid components with the same chromatographic behaviour as the N-acyl-phosphatidyl-ethanolamines, the phospholipid precursors of acyl-ethanolamides in mammalian tissues, and capable of releasing anandamide, palmitoyl- and stearoyl-ethanolamides upon digestion with S. chromofuscus phospholipase D. Accordingly, whole homogenates from P. lividus contained an enzymatic activity capable of converting synthetic [3H]N-arachidonoyl-phosphatidyl-ethanolamine into [3H]anandamide. Finally, mature ovaries of P. lividus were shown also to contain an amidohydrolase activity which catalyses the hydrolysis of anandamide and palmitoyl-ethanolamide to ethanolamine. This enzyme displayed subcellular distribution, pH/temperature dependency profiles and sensitivity to inhibitors similar but not identical to those of the previously described 'anandamide amidohydrolase' from mammalian tissues. These data support the hypothesis, formulated in previous studies, that anandamide or related metabolites may be oocyte-derived cannabimimetic regulators of sea urchin fertility.
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PMID:Occurrence and metabolism of anandamide and related acyl-ethanolamides in ovaries of the sea urchin Paracentrotus lividus. 915 Feb 53

The endogenous cannabinoid receptor agonist anandamide is present in central and peripheral tissues. As the kidney contains both the amidase that degrades anandamide and transcripts for anandamide receptors, we characterized the molecular components of the anandamide signaling system and the vascular effects of exogenous anandamide in the kidney. We show that anandamide is present in kidney homogenates, cultured renal endothelial cells (EC), and mesangial cells; these cells also contain anandamide amidase. Reverse-transcriptase PCR shows that EC contain transcripts for cannabinoid type 1 (CB1) receptors, while mesangial cells have mRNA for both CB1 and CB2 receptors. EC exhibit specific, high-affinity binding of anandamide (Kd = 27.4 nM). Anandamide (1 microM) vasodilates juxtamedullary afferent arterioles perfused in vitro; the vasodilation can be blocked by nitric oxide (NO) synthase inhibition with L-NAME (0.1 mM) or CB1 receptor antagonism with SR 141716A (1 microM), but not by indomethacin (10 microM). Anandamide (10 nM) stimulates CB1-receptor-mediated NO release from perfused renal arterial segments; a similar effect was seen in EC. Finally, anandamide (1 microM) produces a NO-mediated inhibition of KCl-stimulated [3H]norepinephrine release from sympathetic nerves on isolated renal arterial segments. Hence, an anandamide signaling system is present in the kidney, where it exerts significant vasorelaxant and neuromodulatory effects.
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PMID:Production and physiological actions of anandamide in the vasculature of the rat kidney. 929 22

Anandamide (arachidonylethanolamide), an endogenous ligand for cannabinoid receptors, is hydrolyzed by an amidohydrolase and its biological activity is lost. Previously, we partially purified the enzyme from porcine brain and anandamide synthesis by its reverse reaction was proposed (Ueda et al., (1995) J. Biol. Chem. 270, 23823-23827). The anandamide hydrolase and synthase activities were examined with various rat tissues. Rat liver showed the highest specific activities (4.4 +/- 0.3 and 4.5 +/- 0.5 nmol/min/mg protein) for the hydrolase and synthase, respectively. In most other tissues such as brain, testis and parotid gland, the ratio of synthase/hydrolase activity was 0.7-1.6. However, small intestine showed a relatively high synthase/hydrolase ratio of about 5.0 (1.0 +/- 0.1 and 0.2 +/- 0.1 nmol/min/mg protein). When a homogenate of small intestine was subjected to acetone extraction to remove lipids, a higher hydrolase activity was found (2.0 +/- 0.2 nmol/min/mg protein). Furthermore, Northern blotting detected an intense mRNA band of anandamide hydrolase in small intestine as well as liver and brain. These results demonstrated for the first time a high content of anandamide hydrolase in small intestine.
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PMID:Distribution of anandamide amidohydrolase in rat tissues with special reference to small intestine. 929 66

Anandamide amidase is the hydrolytic enzyme responsible for the breakdown of anandamide, an endogenous cannabimimetic, to arachidonate and ethanolamine. Another enzymatic activity called anandamide synthase catalyzes the reverse reaction, that is the condensation of arachidonate and ethanolamine. Using a recently cloned rat fatty acid amidohydrolase (FAAH), we tested the hypothesis that the synthase and the amidase activities are catalyzed by the same enzyme. Untransfected and vector transfected (pcDNA3) COS-7 cells did not express detectable levels of either the amidase or synthase. However, when COS-7 cells were transiently transfected with a rat FAAH pcDNA3 construct, both amidase and synthase were concomitantly expressed. These results indicate that the enzymatic formation of anandamide from arachidonic acid and ethanolamine can be mediated by anandamide amidase acting in the reverse direction. The FAAH transfected cells expressed higher levels of enzyme than either rat brain homogenates or neuroblastoma cells in culture. Furthermore, the reaction rate for the amidase in FAAH transfected COS-7 cells, neuroblastoma cells and brain homogenate was always greater than the synthase reaction. These studies raise the question if this synthase reaction serves any physiological role, especially in view of the evidence that anandamide can be formed by a different pathway.
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PMID:The cloned rat hydrolytic enzyme responsible for the breakdown of anandamide also catalyzes its formation via the condensation of arachidonic acid and ethanolamine. 934 46

Labeled L-N-arachidonylphosphatidylethanolamine (L-N-arachidonyl PE), a likely precursor of N-arachidonylethanolamine (anandamide), as well as its D-isomer, were synthesized using [14C]arachidonic acid. Anandamide was formed by incubating L-N-arachidonyl PE and rat brain membrane with phenylmethylsulfonyl fluoride (PMSF), an inhibitor of anandamide amidohydrolase. Formation of anandamide from L-N-arachidonyl PE was inhibited by p-chloromercuriphenylsulfonic acid (p-CMPS), sulfhydryl reagent, and heat inactivate pre-treatment. D-N-Arachidonyl PE, an unnatural analog for N-arachidonyl PE, did not form anandamide.
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PMID:N-arachidonylethanolamine (anandamide) formation from N-arachidonylphosphatidylethanolamine in rat brain membranes. 936 27

Anandamide (N-Arachidonoylethanolamine) amidohydrolase catalyzing hydrolysis of anandamide was characterized in mice. The enzymatic activity was highest in the liver, followed by the brain and testis. Negligible activity was found in heart, lung and spleen. The activity in brain and liver was mainly localized in the microsomal fractions. Kinetic experiments demonstrated that Km (microM) and Vmax (nmol/min/mg protein) for the brain microsomes were 9.3 and 2.58, respectively, while those for the hepatic microsomes were 180 and 18.9, respectively. The activity in the microsomes from the liver and brain was markedly inhibited by Cu2+, Hg2+, Se4+, phenylmethylsulfonylfluoride and sodium dodecylsulfate. Brain but not hepatic microsomal enzyme activity was inhibited by delta9-tetrahydrocannabinol, cannabidiol and cannabinol. Kinetic parameters demonstrated that the inhibition by the cannabinoids was competitive in nature. Relatively high distribution of the enzyme activity in brain suggests an importance of the enzyme in the central nervous system to regulate the neuromodulatory fatty-acid amides.
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PMID:Distribution and characterization of anandamide amidohydrolase in mouse brain and liver. 957 Mar 37

Anandamide, an endogenous cannabinoid signaling molecule, in a concentration dependent manner, initiates the release of nitric oxide (NO) from leech and mussel ganglia. SR 141716A, a cannabinoid antagonist, blocks the anandamide stimulated release of NO from these tissues. Methyl arachidonyl fluorophosphonate (MAFP), a specific anandamide amidase inhibitor, when administered to either ganglia with anandamide (10-6 M) did not increase the peak level of NO release but did significantly extend NO release from 12 to 18 min (P<0.05). Lower levels of anandamide (10-8 and 10-7 M) do not stimulate the release of significant amounts of NO from these tissues. However, in the presence of MAFP (2.5 nM), the lower anandamide concentrations were able to release significant peak amounts of NO. In mussel neural tissues, the peak NO release increased from 2.2+/-1.3 nM to 8.6+/-2.1 nM. Taken together, the results indirectly demonstrate the presence of anandamide amidase in these tissues, suggesting that the enzyme may serve as an endogenous regulator of anandamide action.
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PMID:Anandamide amidase inhibition enhances anandamide-stimulated nitric oxide release in invertebrate neural tissues. 963 Jul 17

Arachidonylethanolamide (AEA), the putative endogenous ligand of the cannabinoid receptor, has been shown to be a substrate for lipoxygenase enzymes in vitro. One goal of this study was to determine whether lipoxygenase-rich cells metabolize AEA. [14C]AEA was converted by human polymorphonuclear leukocytes (PMNs) to two major metabolites that comigrated with synthetic 12(S)- and 15(S)-hydroxy-arachidonylethanolamide (HAEA). Human platelets convert [14C]AEA to 12(S)-HAEA. 12(S)-HAEA binds to both CB1 and CB2 receptors with approximately the same affinity as AEA. 12(R)-HAEA, which is not produced by PMNs, has 2-fold lower affinity for the CB1 receptor and 10-fold lower affinity for the CB2 receptor than 12(S)-HAEA. 15-HAEA has a lower affinity than AEA for both receptors, with Ki values of 738 and >1000 nM for CB1 and CB2 receptors, respectively. The addition of a hydroxyl group at C20 of AEA resulted in a ligand with the same affinity for the CB1 receptor but a 4-fold lower affinity for the CB2 receptor than AEA. 12(S)-HAEA and 15-HAEA are poor substrates for AEA amidohydrolase and do not bind to the AEA uptake carrier. In conclusion, the addition of a hydroxyl group at C12 of the arachidonate backbone of AEA does not affect binding to CB receptors but is likely to increase its half-life. The addition of hydroxyl groups at other positions affects ligand affinity for CB receptors; both the position of the hydroxyl group and the configuration of the remaining double bonds are determinants of affinity.
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PMID:Human platelets and polymorphonuclear leukocytes synthesize oxygenated derivatives of arachidonylethanolamide (anandamide): their affinities for cannabinoid receptors and pathways of inactivation. 965 4

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