Plant fatty acid (ethanol) amide hydrolases

Fatty acid amide hydrolase (FAAH) plays a central role in modulating endogenous N-acylethanolamine (NAE) levels in vertebrates, and, in part, constitutes an "endocannabinoid" signaling pathway that regulates diverse physiological and behavioral processes in animals. Recently, an Arabidopsis FAAH homologue was identified which catalyzed the hydrolysis of NAEs in vitro suggesting a FAAH-mediated pathway exists in plants for the metabolism of endogenous NAEs. Here, we provide evidence to support this concept by identifying candidate FAAH genes in monocots (Oryza sativa) and legumes (Medicago truncatula), which have similar, but not identical, exon-intron organizations. Corresponding M. truncatula and rice cDNAs were isolated and cloned into prokaryotic expression vectors and expressed as recombinant proteins in Escherichia coli. NAE amidohydrolase assays confirmed that these proteins indeed catalyzed the hydrolysis of 14C-labeled NAEs in vitro. Kinetic parameters and inhibition properties of the rice FAAH were similar to those of Arabidopsis and rat FAAH, but not identical. Sequence alignments and motif analysis of plant FAAH enzymes revealed a conserved domain organization for these members of the amidase superfamily. Five amino-acid residues determined to be important for catalysis by rat FAAH were absolutely conserved within the FAAH sequences of six plant species. Homology modeling of the plant FAAH proteins using the rat FAAH crystal structure as a template revealed a conserved protein core that formed the active site of each enzyme. Collectively, these results indicate that plant and mammalian FAAH proteins have similar structure/activity relationships despite limited overall sequence identity. Defining the molecular properties of NAE amidohydrolase enzymes in plants will help to better understand the metabolic regulation of NAE lipid mediators.     

Linear models for microarray data analysis: hidden similarities and differences.

In the past several years many linear models have been proposed for analyzing two-color microarray data. As presented in the literature, many of these models appear dramatically different. However, many of these models are reformulations of the same basic approach to analyzing microarray data. This paper demonstrates the equivalence of some of these models. Attention is directed at choices in microarray data analysis that have a larger impact on the results than the choice of linear model.     

Homology modelling and molecular dynamics study of human fatty acid amide hydrolase

The three-dimensional (3D) model of the human fatty acid amide hydrolase (hFAAH) was constructed based on the crystal structure of the rat FAAH (PDB code 1MT5) in complex with a substrate using Modeller9v2 program. With the aid of molecular mechanics and molecular dynamics method, the last model was obtained and further assessed by Profile-3D, Prosa2003 and Procheck, which confirms that the refined model is reliable. Furthermore, the docking results of propofol and its structural analogue into the active site of hFAAH indicate that 2,6-di-sec-butyl phenol is a more preferred ligand than others, which is in good agreement with the experimental results. From the docking studies, we also suggest that Phe192, Ile238, Thr377, Leu380, Phe381, Phe388 and Leu404 in the hFAAH are seven important determinant residues in binding as they have strong van der Waal interactions with the ligand.     

Chemical and mutagenic investigations of fatty acid amide hydrolase: evidence for a family of serine hydrolases with distinct catalytic properties.

Fatty acid amide hydrolase (FAAH) is a membrane-bound enzyme responsible for the catabolism of neuromodulatory fatty acid amides, including anandamide and oleamide. FAAH's primary structure identifies this enzyme as a member of a diverse group of alkyl amidases, known collectively as the "amidase signature family". At present, this enzyme family's catalytic mechanism remains poorly understood. In this study, we investigated the catalytic features of FAAH through mutagenesis, affinity labeling, and steady-state kinetic methods. In particular, we focused on the respective roles of three serine residues that are conserved in all amidase signature enzymes (S217, S218, and S241 in FAAH). Mutation of each of these serines to alanine resulted in a FAAH enzyme bearing significant catalytic defects, with the S217A and S218A mutants showing 2300- and 95-fold reductions in k(cat), respectively, and the S241A mutant exhibiting no detectable catalytic activity. The double S217A:S218A FAAH mutant displayed a 230 000-fold decrease in k(cat), supporting independent catalytic functions for these serine residues. Affinity labeling of FAAH with a specific nucleophile reactive inhibitor, ethoxy oleoyl fluorophosphonate, identified S241 as the enzyme's catalytic nucleophile. The pH dependence of FAAH's k(cat) and k(cat)/K(m) implicated a base involved in catalysis with a pK(a) of 7.9. Interestingly, mutation of each of FAAH's conserved histidines (H184, H358, and H449) generated active enzymes, indicating that FAAH does not contain a Ser-His-Asp catalytic triad commonly found in other mammalian serine hydrolytic enzymes. The unusual properties of FAAH identified here suggest that this enzyme, and possibly the amidase signature family as a whole, may hydrolyze amides by a novel catalytic mechanism.     

Intermittent control models of human standing: similarities and differences

Two architectures of intermittent control are compared and contrasted in the context of the single inverted pendulum model often used for describing standing in humans. The architectures are similar insofar as they use periods of open-loop control punctuated by switching events when crossing a switching surface to keep the system state trajectories close to trajectories leading to equilibrium. The architectures differ in two significant ways. Firstly, in one case, the open-loop control trajectory is generated by a system-matched hold, and in the other case, the open-loop control signal is zero. Secondly, prediction is used in one case but not the other. The former difference is examined in this paper. The zero control alternative leads to periodic oscillations associated with limit cycles; whereas the system-matched control alternative gives trajectories (including homoclinic orbits) which contain the equilibrium point and do not have oscillatory behaviour. Despite this difference in behaviour, it is further shown that behaviour can appear similar when either the system is perturbed by additive noise or the system-matched trajectory generation is perturbed. The purpose of the research is to come to a common approach for understanding the theoretical properties of the two alternatives with the twin aims of choosing which provides the best explanation of current experimental data (which may not, by itself, distinguish beween the two alternatives) and suggesting future experiments to distinguish beween the two alternatives.     

Novel inhibitors of fatty acid amide hydrolase

A class of bisarylimidazole derivatives are identified as potent inhibitors of the enzyme fatty acid amide hydrolase (FAAH). Compound 17 (IC(50)=2 nM) dose-dependently (0.1-10mg/kg, iv) potentiates the effects of exogenous anandamide (1 mg/kg, iv) in a rat thermal escape test (Hargreaves test), and shows robust antinociceptive activity in animal models of persistent (formalin test) and neuropathic (Chung model) pain. Compound 17 (20 mg/kg, iv) demonstrates activity in the formalin test that is comparable to morphine (3mg/kg, iv), and is dose-dependently inhibited by the CB1 antagonist SR141716A. In the Chung model, compound 17 shows antineuropathic effects similar to high-dose (100 mg/kg) gabapentin. FAAH inhibition shows potential utility for the clinical treatment of persistent and neuropathic pain.     

Responses of human peripheral arteries to agonists: similarities and differences

A review of the literature indicates that the effects of many vasoactive substances, and particularly alpha agonists, have been investigated in a variety of human peripheral arterial models, including isolated digital, umbilical, uterine, and mesenteric arteries. The limited comparative data on different human arteries, or on animal vs. human arteries, make definition of inter- and intraspecies differences incomplete at this stage. Examination of recent data from our laboratory using the cystic artery indicates that observed differences in responsiveness of the same artery from different subjects may result from a variety of factors not usually considered in animal models. Hence, age of subjects must be controlled, because factors such as vessel wall thickness, optimal resting tension, and blood pressure vary with age. Even when age is controlled, mildly hypertensive or normotensive females with a family history of hypertension are found to have increased vascular responsiveness to some agonists, which implies the need also to control for sex of the subject. The use of appropriate controls and fastidious laboratory techniques are essential to clearly define inter- and intraspecies similarities and differences.     

The fatty acid amide hydrolase (FAAH)

The topic of this review is fatty acid amide hydrolase (FAAH), one of the best-characterized enzymes involved in the hydrolysis of bioactive lipids such as anandamide, 2-arachidonoylglycerol (2-AG), and oleamide. Herein, we discuss the nomenclature, the various assays that have been developed, the relative activity of the various substrates and the reversibility of the enzyme reactions catalyzed by FAAH. We also describe the cloning of the enzyme from rat and subsequent cDNA isolation from mouse, human, and pig. The proteins and the mRNAs from different species are compared. Cloning the enzyme permitted the purification and characterization of recombinant FAAH. The conserved regions of FAAH are described in terms of sequence and function, including the amidase domain which contains the serine catalytic nucleophile, the hydrophobic domain important for self association, and the proline rich domain region, which may be important for subcellular localization. The distribution of FAAH in the major organs of the body is described as well as regional distribution in the brain and its correlation with cannabinoid receptors. Since FAAH is recognized as a drug target, a large number of inhibitors have been synthesized and tested since 1994 and these are reviewed in terms of reversibility, potency, and specificity for FAAH and cannabinoid receptors.     

Anandamide amidohydrolase (fatty acid amide hydrolase)

Anandamide (N-arachidonoylethanolamine) loses its cannabimimetic activity when it is hydrolyzed to arachidonic acid and ethanolamine by the catalysis of an enzyme referred to as anandamide amidohydrolase or fatty acid amide hydrolase. Cravatt's group and our group cloned cDNA of the enzyme from rat, human, mouse and pig, and the primary structures revealed that the enzymes belong to an amidase family characterized by the amidase signature sequence. The recombinant enzyme acted not only as an amidase for anandamide and oleamide, but also as an esterase for 2-arachidonoylglycerol. The reversibility of the enzymatic anandamide hydrolysis and synthesis was also confirmed with a purified recombinant enzyme. Several fatty acid derivatives like methyl arachidonyl fluorophosphonate potently inhibited the enzyme. The enzyme was distributed widely in mammalian organs such as liver, small intestine and brain. However, the anandamide hydrolyzing enzyme found in human megakaryoblastic cells was catalytically distinct from the previously known enzyme.     

Determination of acid hydrolases in human platelets

A method is described which allows the preparation of pure cinnamoyl-CoA thiolesters in high yields. This procedure utilizes a partially purified cinnamoyl-CoA ligase obtained from a strain of Pseudomonas putida and some properties of this new enzyme are described. Product isolation involves polyamide column chromatography which allows the purification of 50-mg batches of thiolesters. The method is applicable to a range of cinnamic acids, and is particularly suitable in preparing the biologically important CoA esters of p-coumarate, ferulate, and caffeate.     

Heterocyclic sulfoxide and sulfone inhibitors of fatty acid amide hydrolase

A novel series of heterocyclic sulfoxides and sulfones was prepared and examined as potential inhibitors of fatty acid amide hydrolase (FAAH), the enzyme responsible for inactivation of neuromodulating fatty acid amides including anandamide and oleamide.     

Arteriogenesis versus angiogenesis: similarities and differences

Cardiovascular diseases account for more than half of total mortality before the age of 75 in industrialized countries. To develop therapies promoting the compensatory growth of blood vessels could be superior to palliative surgical interventions. Therefore, much effort has been put into investigating underlying mechanisms. Depending on the initial trigger, growth of blood vessels in adult organisms proceeds via two major processes, angiogenesis and arteriogenesis. While angiogenesis is induced by hypoxia and results in new capillaries, arteriogenesis is induced by physical forces, most importantly fluid shear stress. Consequently, chronically elevated fluid shear stress was found to be the strongest trigger under experimental conditions. Arteriogenesis describes the remodelling of pre-existing arterio-arteriolar anastomoses to completely developed and functional arteries. In both growth processes, enlargement of vascular wall structures was proposed to be covered by proliferation of existing wall cells. Recently, increasing evidence emerges, implicating a pivotal role for circulating cells, above all blood monocytes, in vascular growth processes. Since it has been shown that monocytes/ macrophage release a cocktail of chemokines, growth factors and proteases involved in vascular growth, their contribution seems to be of a paracrine fashion. A similar role is currently discussed for various populations of bone-marrow derived stem cells and endothelial progenitors. In contrast, the initial hypothesis that these cells -after undergoing a (trans-)differentiation- contribute by a structural integration into the growing vessel wall, is increasingly challenged.     

Thiadiazolopiperazinyl ureas as inhibitors of fatty acid amide hydrolase

A series of thiadiazolopiperazinyl aryl urea fatty acid amide hydrolase (FAAH) inhibitors is described. The molecules were found to inhibit the enzyme by acting as mechanism-based substrates, forming a covalent bond with Ser241. SAR and PK properties are presented.     

Regional and seasonal differences in the fatty acid composition of human subcutaneous fat

The fatty acid composition of human subcutaneous fat obtained at a hospital in the north of Japan, was determined by means of gas chromatography. In the fat of chest and abdominal walls percentages of saturated fatty acids were higher and those of mono-unsaturated ones were less in comparison with respective values in the fat of forearm and leg. The unsaturation of the fat of extremities was more pronounced in the winter than in the summer, while no seasonal variations were observed in the fatty acid composition of the fat of trunk.

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Zusammenfassung Die Verteilung der Fettsäuren im subcutanen Fett des Menschen wurde gaschromatographisch bestimmt. Die Fettproben wurden in einer Klinik im Norden Japans bei Operationen entnommen. Der prozentuale Anteil an gesättigten Fettsäuren war höher im Fett der Brust und Bauchwand und der an einfach ungesättigten Fettsäuren im Fett des Vorderarms und Beines. Die Anreicherung ungesättigter Fettsäuren in den Extremitäten war im Winter ausgeprägter als im Sommer. In der Zusammensetzung der Fett des Rumpfes fehlte eine jahreszeitenabhängige Variation.

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Resume Par analyse chromatographique des gaz, on a déterminé la répartition des acides gras dans les tissus adipeux sous-cutanés de l'homme. Les échantillons de graisse ont été prélevés lors d'opérations dans une clinique du nord du Japon. La proportion d'acides gras saturés était plus élevée dans la graisse de la poitrine et du ventre, alors que les acides gras mono-nonsatures l'emportaient dans l'avant-bras et dans les jambes. L'accumulation d'acides gras non saturés dans les extrémités était plus accentuée en hiver qu'en été. On n'a par contre pas pu établir de relation saisonnière dans la composition de la graisse du tronc.

     

Acetylcholinesterases--the structural similarities and differences

Acetylcholinesterase (AChE) is a widely spread enzyme playing a very important role in nerve signal transmission. As AChE controls key processes, its inhibition leads to the very fast death of an organism, including humans. However, when this feature is to be used for killing of unwanted organisms (i.e. mosquitoes), one is faced with the question - how much do AChEs differ between species and what are the differences? Here, a theoretical point of view was utilized to identify the structural basis for such differences. The various primary and tertiary alignments show that AChEs are very evolutionary conserved enzymes and this fact could lead to difficulties, for example, in the search for inhibitors specific for a particular species.