EC:3.5.1.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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 (N-arachidonoylethanolamine) has been identified as an endogenous ligand of the G-protein coupled cannabinoid CB(1) receptor. Recent studies have postulated the existence of carrier-mediated anandamide transport which is involved in the termination of the biological effects of anandamide. A membrane bound amidohydrolase (fatty acid amide hydrolase, FAAH), located intracellulary, hydrolyzes and inactivates anandamide and other endogenous cannabinoids such as 2-arachidonoylglycerol (2-AG). Structure-activity relationships (SARs) for endocannabinoid interaction with the CB receptors, the anandamide transporter and FAAH are currently emerging in the literature. This review considers the divergences between these SARs and focuses upon the conformational implications for endocannabinoid recognition at each of these biological targets.
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PMID:Conformational requirements for endocannabinoid interaction with the cannabinoid receptors, the anandamide transporter and fatty acid amidohydrolase. 1110 80

Anandamide is an endogenous compound that acts as an agonist at cannabinoid receptors. It is inactivated via intracellular degradation after its uptake into cells by a carrier-mediated process that depends upon a concentration gradient. The fate of anandamide in those cells containing an amidase called fatty-acid amide hydrolase (FAAH) is hydrolysis to arachidonic acid and ethanolamine. The active site nucleophilic serine of FAAH is inactivated by a variety of inhibitors including methylarachidonylfluorophosphonate (MAFP) and palmitylsulfonyl fluoride. In the current report, the net uptake of anandamide in cultured neuroblastoma (N18) and glioma (C6) cells, which contain FAAH, was decreased by nearly 50% after 6 min of incubation in the presence of MAFP. Uptake in laryngeal carcinoma (Hep2) cells, which lack FAAH, is not inhibited by MAFP. Free anandamide was found in all MAFP-treated cells and in control Hep2 cells, whereas phospholipid was the main product in N18 and C6 control cells when analyzed by TLC. The intracellular concentration of anandamide in N18, C6, and Hep2 cells was up to 18-fold greater than the extracellular concentration of 100 nm, which strongly suggests that it is sequestered within the cell by binding to membranes or proteins. The accumulation of anandamide and/or its breakdown products was found to vary among the different cell types, and this correlated approximately with the amount of FAAH activity, suggesting that the breakdown of anandamide is in part a driving force for uptake. This was shown most clearly in Hep2 cells transfected with FAAH. The uptake in these cells was 2-fold greater than in vector-transfected or untransfected Hep2 cells. Therefore, it appears that FAAH inhibitors reduce anandamide uptake by cells by shifting the anandamide concentration gradient in a direction that favors equilibrium. Because inhibition of FAAH increases the levels of extracellular anandamide, it may be a useful target for the design of therapeutic agents.
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PMID:The cellular uptake of anandamide is coupled to its breakdown by fatty-acid amide hydrolase. 1111 29

In invertebrates, like Hydra and sea urchins, evidence for a functional cannabinoid system was described. The partial characterization of a putative CB1 cannabinoid receptor in the leech Hirudo medicinalis led us to investigate the presence of a complete endogenous cannabinoid system in this organism. By using gas chromatography-mass spectrometry, we demonstrate the presence of the endocannabinoids anandamide (N-arachidonoylethanolamine, 21.5+/-0.7 pmol/g) and 2-arachidonoyl-glycerol (147.4+/-42.7 pmol/g), and of the biosynthetic precursor of anandamide, N-arachidonylphosphatidyl-ethanolamine (16.5+/-3.3 pmol/g), in the leech central nervous system (CNS). Anandamide-related molecules such as N-palmitoylethanolamine (32.4+/-1.6 pmol/g) and N-linolenoylethanolamine (5.8 pmol/g) were also detected. We also found an anandamide amidase activity in the leech CNS cytosolic fraction with a maximal activity at pH 7 and little sensitivity to typical fatty acid amide hydrolase (FAAH) inhibitors. Using an antiserum directed against the amidase signature sequence, we focused on the identification and the localization of the leech amidase. Firstly, leech nervous system protein extract was subjected to Western blot analysis, which showed three immunoreactive bands at ca. approximately 42, approximately 46 and approximately 66 kDa. The former and latter bands were very faint and were also detected in whole homogenates from the coelenterate Hydra vulgaris, where the presence of CB1-like receptors, endocannabinoids and a FAAH-like activity was reported previously. Secondly, amidase immunocytochemical detection revealed numerous immunoreactive neurons in the CNS of three species of leeches. In addition, we observed that leech amidase-like immunoreactivity matches to a certain extent with CB1-like immunoreactivity. Finally, we also found that stimulation by anandamide of this receptor leads, as in mammals, to inhibition of cAMP formation, although this effect appeared to be occurring through the previously described anandamide-induced and CB1-mediated activation of nitric oxide release. Taken together, these results suggest the existence of a complete and functional cannabinoid system in leeches.
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PMID:Evidence for an endocannabinoid system in the central nervous system of the leech Hirudo medicinalis. 1124 16

The pharmacological properties of fatty acid amidohydrolase (FAAH) at different assay pH values were investigated using [(3)H]-anandamide ([(3)H]-AEA) as substrate in rat brain homogenates and in COS-1 [corrected] cells transfected with wild type and mutant FAAH. Rat brain hydrolysis of [(3)H]-AEA showed pH dependency with an optimum around pH 8-9. Between pH 6.3 and 8.2, the difference in activity was due to differences in the V(max), rather than the K(M) values. For inhibition of rat brain [(3)H]-AEA metabolism by a series of known FAAH inhibitors, the potencies of the enantiomers of ibuprofen and phenylmethylsulphonyl fluoride (PMSF) were higher at pH 5.28 than at pH 8.37, whereas the reverse was true for oleyl trifluoromethylketone (OTMK) and arachidonoylserotonin. At both pH values, (-)ibuprofen was a mixed-type inhibitor of FAAH. The K(i)((slope)) and K(i)((intercept)) values for (-)ibuprofen at pH 5.28 were 11 and 143 microM, respectively. At pH 8.37, the corresponding values were 185 and 3950 microM, respectively. The pH dependency for the inhibition by OTMK and (-)ibuprofen was also seen in COS-1 [corrected] cells transiently transfected with either wild type, S152A or C249A FAAH. No differences in potencies between the wild type and mutant enzymes were seen. It is concluded that the pharmacological properties of FAAH are highly pH-dependent. The higher potency of ibuprofen at lower pH values raises the possibility that in certain types of inflamed tissue, the concentration of this compound following oral administration may be sufficient to inhibit FAAH.
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PMID:Effects of pH on the inhibition of fatty acid amidohydrolase by ibuprofen. 1139 68

1. The ability of a series of homologues and analogues of palmitoylethanolamide to inhibit the uptake and fatty acid amidohydrolase (FAAH)-catalysed hydrolysis of [(3)H]-anandamide ([(3)H]-AEA) has been investigated. 2. Palmitoylethanolamide and homologues with chain lengths from 12 - 18 carbon atoms inhibited rat brain [(3)H]-AEA metabolism with pI(50) values of approximately 5. Homologues with chain lengths < or = eight carbon atoms gave < 20% inhibition at 100 microM. 3. R-palmitoyl-(2-methyl)ethanolamide, palmitoylisopropylamide and oleoylethanolamide inhibited [(3)H]-AEA metabolism with pI(50) values of 5.39 (competitive inhibition), 4.89 (mixed type inhibition) and 5.33 (mixed type inhibition), respectively. 4. With the exception of oleoylethanolamide, the compounds did not produce dramatic inhibition of [(3)H]-WIN 55,212-2 binding to human CB(2) receptors expressed on CHO cells. Palmitoylethanolamide, palmitoylisopropylamide and R-palmitoyl-(2-methyl)ethanolamide had modest effects upon [(3)H]-CP 55,940 binding to human CB(1) receptors expressed on CHO cells. 5. Most of the compounds had little effect upon the uptake of [(3)H]-AEA into C6 and/or RBL-2H3 cells. However, palmitoylcyclohexamide (100 microM) and palmitoylisopropylamide (30 and 100 microM) produced more inhibition of [(3)H]-AEA uptake than expected to result from inhibition of [(3)H]-AEA metabolism alone. 6. In intact C6 cells, palmitoylisopropylamide and oleoylethanolamide inhibited formation of [(3)H]-ethanolamine from [(3)H]-AEA to a similar extent as AM404, whereas palmitoylethanolamide, palmitoylcyclohexamide and R-palmitoyl-(2-methyl)ethanolamide were less effective. 7. These data provide useful information upon the ability of palmitoylethanolamide analogues to act as 'entourage' compounds. Palmitoylisopropylamide may prove useful as a template for design of compounds that reduce the cellular accumulation and metabolism of AEA without affecting either CB(1) or CB(2) receptors.
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PMID:Effects of homologues and analogues of palmitoylethanolamide upon the inactivation of the endocannabinoid anandamide. 1149 12

Anandamide, an endogenous cannabinoid receptor ligand, was rapidly metabolized by Tetrahymena pyriformis in vivo. Metabolic products were mainly phospholipids as well as neutral lipids, including small amounts of free arachidonic acid. Anandamide amidohydrolase activity was detected in the culture medium by the release of [3H]arachidonic acid from [3H]anandamide, in a time- and concentration-dependent manner. Kinetic experiments demonstrated that the released enzyme had an apparent K(m) of 3.7 microM and V(max) 278 pmol/min/mg protein. Amidohydrolase activity was maximal at pH 9-10, was abolished by phenylmethylsulfonyl fluoride and was Ca(2+)- and Mg(2+)-independent. Thus, T. pyriformis is capable of hydrolyzing anandamide in vivo and releasing amidohydrolase activity.
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PMID:Anandamide amidohydrolase activity, released in the medium by Tetrahymena pyriformis. Identification and partial characterization. 1172 45

Anandamide (N -arachidonoylethanolamine) was the first ligand to be identified as an endogenous ligand of the G-protein coupled cannabinoid CB1 receptor. Subsequently, two other fatty acid ethanolamides, N -homo- gamma -linolenylethanolamine and N -7,10,13,16-docosatetraenylethanolamine were identified as endogenous cannabinoid ligands. A fatty acid ester, 2-arachidonoylglycerol (2-AG), and a fatty acid ether, 2-arachidonyl glyceryl ether also have been isolated and shown to be endogenous cannabinoid ligands. Recent studies have postulated the existence of carrier-mediated anandamide transport that is essential for termination of the biological effects of anandamide. A membrane bound amidohydrolase (fatty acid amide hydrolase, FAAH), located intracellularly, hydrolyzes and inactivates anandamide and other endogenous cannabinoids such as 2-AG. 2-AG has also been proposed to be an endogenous CB2 ligand. Structure-activity relationships (SARs) for endocannabinoid interaction with the CB receptors are currently emerging in the literature. This review considers cannabinoid receptor SAR developed to date for the endocannabinoids with emphasis upon the conformational implications for endocannabinoid recognition at the cannabinoid receptors.
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PMID:Endocannabinoid structure-activity relationships for interaction at the cannabinoid receptors. 1205 32

Endocannabinoids (endogenous ligands of cannabinoid receptors) such as anandamide (N-arachidonoylethanolamine) and 2-arachidonoylglycerol (2-AG) are inactivated upon enzymatic hydrolysis. Recent progress in the enzymological and molecular biological studies on the 'endocannabinoid hydrolases' is reviewed in this article. Anandamide is hydrolyzed to arachidonic acid and ethanolamine by a membrane-bound amidase generally referred to as fatty acid amide hydrolase (FAAH). This enzyme has a broad substrate specificity, hydrolyzing oleamide (an endogenous sleep-inducing factor) and 2-AG as well as anandamide. cDNA cloning revealed that FAAH is composed of 579 amino acids and belongs to the amidase signature family. A serine residue functioning as a catalytic nucleophile and several other catalytically important residues were identified in its primary structure. Furthermore, recent generation and analysis of the FAAH gene-deficient mice demonstrated the central role of this enzyme in the metabolism of anandamide. Alternatively, an amidase, which is distinct from FAAH but also hydrolyzing anandamide and other N-acylethanolamines at acidic pH, was identified in human megakaryoblastic cells and rat organs such as lung and spleen. As for the 2-AG hydrolysis, in addition to the known monoacylglycerol lipase, other esterases and FAAH may be involved.
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PMID:Endocannabinoid hydrolases. 1243 41

The aim of the present experiments was to study the effects of exogenously added anandamide on transient norepinephrine (NE)-induced contractions in mesenteric beds isolated from adult male Sprague-Dawley rats 6 h after the i.p. administration of 5 mg kg(-1) lipopolysaccharide (LPS). LPS treatment induced a 3-fold increase in total nitric-oxide synthase (NOS) activity without modifying either the systolic blood pressure or the vascular reactivity to NE of the isolated mesenteric bed. The endocannabinoid anandamide (0.01-10 microM) caused concentration-dependent reductions of the contractile responses to NE in the isolated mesenteric bed. This effect was significantly potentiated after LPS treatment compared with the controls. Anandamide-induced reductions of the contractile responses to NE in mesenteric beds isolated from LPS-treated rats were unmodified by endothelium removal but significantly diminished by either the anandamide amidase inhibitor phenylmethylsulfonyl fluoride (200 microM) or the vanilloid receptor antagonist capsazepine (1 microM). The vanilloid receptor agonist capsaicin (0.01-100 nM) also caused concentration-dependent relaxations that were potentiated in mesenteric beds from LPS-treated rats. Nevertheless, they were unmodified by 1 microM capsazepine. It is concluded that the potentiation of anandamide relaxations after LPS treatment, which are evident at early stages of endotoxic shock, could involve the participation of an anandamide metabolite and might be mediated, at least in part, through a vanilloid receptor.
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PMID:Potentiation of anandamide effects in mesenteric beds isolated from endotoxemic rats. 1249 May 89

The abilities of 19 analogues of palmitoylethanolamide and two analogues of oleoylethanolamide to affect the Ca(2+) influx into human embryonic kidney cells expressing the human vanilloid receptor (hVR1-HEK293 cells) in response to anandamide (AEA) have been investigated using a FLIPR assay and a bovine serum albumin-containing assay medium. Only palmitoylethanolamide produced any effect in the absence of AEA. The ability of palmitoylethanolamide to potentiate the response to AEA was retained when the N-CH(2)CH(2)OH group was replaced by N-CH(2)CH(2)Cl,whereas replacement with N-alkyl substituents [from -H up to -(CH(2))(12)CH(3)] resulted either in a reduction or in a complete loss of this activity. The tertiary amide N-(CH(2)CH(3))(2) (19) and N-morpholino (20) analogues of palmitoylethanolamide potentiated the response to 1 microM AEA to a greater degree than the parent compound, whereas the N-(CH(3))(2) analogue was inactive. 19 and 20 produced leftward shifts in the dose-response curve for AEA activation of Ca(2+) influx into hVR1-HEK293 cells. EC(50) values for AEA to produce Ca(2+) influx into hVR1-HEK293 cells were 1.1, 1.1, 0.54 and 0.36 microM in the presence of 0, 1, 3 and 10 microM 19, respectively. The corresponding values for 20 were 1.5, 1.3, 0.77 and 0.17 microM, respectively. The compounds did not affect the dose-response curves to capsaicin. The ability of oleoylethanolamide to potentiate AEA is retained by the N-CH(2)CH(3) and N-CH(CH(3))(2) analogues (22 and 23, respectively). 22 and 23 produced a small ( approximately 25%) inhibition of the binding of [(3)H]-CP55,940 and [(3)H]-WIN 55,212-2 to CB(1) and CB(2) receptors, respectively, expressed in CHO cells. The compounds inhibited the metabolism of 2 microM [(3)H]-AEA by rat brain fatty acid amidohydrolase with IC(50) values of 5.6 and 11 microM, respectively. In contrast, 19 and 20 were without effect on either binding to CB receptors or fatty acid amidohydrolase activity. Minor reductions in the accumulation of 10 microM [(3)H]-AEA into C6 glioma cells were seen at 10 microM concentrations of 19 and 20. It is concluded that 19 and 20 selectively enhance AEA effects upon VR1 receptors without potentially confounding effects upon CB receptors or fatty acid amidohydrolase activity.
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PMID:N-Morpholino- and N-diethyl-analogues of palmitoylethanolamide increase the sensitivity of transfected human vanilloid receptors to activation by anandamide without affecting fatty acid amidohydrolase activity. 1261 67

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