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Query: UNIPROT:P06889 (Mol)
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A cytosolic polyamine N-acetyltransferase which catalyses polyamine and diamine acetylation has been partially purified from the liver fluke Fasciola hepatica. The enzyme has an apparent Mr of 50,000 and unlike the corresponding mammalian liver counterpart is capable of putrescine acetylation. Among the substrates tested, spermidine had the highest reaction rate but putrescine had a lower Km value. The Km values for spermidine, spermine, norspermidine, putrescine, cadaverine and 1,3-diaminopropane were 20 microM, 1.30 mM, 20 microM, 7 microM, 10 microM and 50 microM, respectively. Acetylated polyamines were also substrates for the trematode acetylase, but histones were inactive. The partially purified enzyme had no deacetylase activity. The Km for acetyl-CoA was 4.4 microM. Coenzyme A was strongly inhibitory with a Ki value of 5.3 microM. Bis(benzyl)polyamine analogue MDL 27695 was a potent competitive inhibitor of the enzyme with a Ki of 22 microM. Inhibition by 1,4-dimethyl-putrescine was non-competitive and had a Ki value of 15 microM. The trematode acetylase is highly dependent on sulfhydryl groups for its activity. As had been reported in nematodes, polyamine acetylation could represent a process by which trematodes convert excess polyamines to forms suitable for transport and excretion. On the other hand, this could be the regulatory step of a functional interconversion pathway in these parasites.
Mol Biochem Parasitol 1992 Mar
PMID:Polyamine N-acetyltransferase from Fasciola hepatica. 156 39

A methodology based on molecular modeling and chemometrics is applied to identify the geometrical pharmacophore and the stereoelectronic requirements for the activity in a series of inhibitors of 3-hydroxy 3-methylglutaryl coenzyme A (HMG-CoA) reductase, an enzyme involved in cholesterol biosynthesis. These inhibitors present two common structural features - a 3,5-dihydroxy hepatanoic acid which mimics the active portion of the natural substrate HMG-CoA and a lipophilic region which carries both polar and bulky groups. A total of 432 minimum energy conformations of 11 homologous compounds showing different levels of biological activity are calculated by the molecular mechanics MM2 method. Five atoms are selected as representatives of the relevant fragments of these compounds and three interatomic distances, selected among 10 by means of a Principal Component Analysis (PCA), are used to describe the three-dimensional disposition of these atoms. A cluster analysis procedure, performed on the whole set of conformations described by these three distances, allows the selection of one cluster whose centroid represents a geometrical model for the HMG-CoA reductase pharmacophore and the conformations included are candidates as binding conformations. To obtain a refinement of the geometrical model and to have a better insight into the requirements for the activity of these inhibitors, the Molecular Electrostatic Potential (MEP) distributions are determined by the MNDO semiempirical method.
J Comput Aided Mol Des 1992 Feb
PMID:Pharmacophore identification by molecular modeling and chemometrics: the case of HMG-CoA reductase inhibitors. 158 39

Recently it has been reported that prolonged treatment with propionyl-L-carnitine, a carnitine derivative, results in a positive inotropic effect. To gain further insight into its mode of action, we pre-treated 253 rabbits for up to 10 days with daily doses of 1 mmol/kg propionyl-L-carnitine or L-carnitine intraperitoneally, using saline-treated animals as control. Twenty-four hours after the last injection, we isolated papillary muscles for electrophysiological investigations. Whole hearts were used in perfusion experiments for biochemical and hemodynamic measurements. In addition, mitochondria were harvested from these hearts for the analysis of their function. Plasma and cardiac levels of free carnitine, along with plasma short-chain acylcarnitines, increased at least two-fold after treatment with carnitine or its propionyl-ester, with concomitant rises in tissue long-chain acylcarnitine and long-chain acyl-CoA. At the time of animal sacrifice, treatment did not increase plasma or tissue propionyl-L-carnitine content. The studies carried out with perfused hearts and isolated mitochondria failed to show an effect of propionyl-L-carnitine pre-treatment on high-energy phosphate metabolism or respiration. Papillary muscles from animals, treated for 10 days, showed a lengthening of the action potential duration from 63 +/- 4 to 102 +/- 6 ms (P less than 0.001) at -10 mV. Perfused hearts from these rabbits displayed positive inotropy, as indicated by an improved pressure development at higher ventricular filling volumes, e.g., from 39 +/- 4 to 60 +/- 3 mmHg (P less than 0.05) at 3.6 ml. Pre-treatment with L-carnitine or saline failed to affect the electrophysiological and hemodynamic variables. Thus, prolonged treatment of rabbits with propionyl-L-carnitine, but not with L-carnitine, improved contractility and lengthened action potential duration in isolated muscle preparations.
J Mol Cell Cardiol 1992 Mar
PMID:Prolonged propionyl-L-carnitine pre-treatment of rabbit: biochemical, hemodynamic and electrophysiological effects on myocardium. 162 47

Studies carried out on the adrenal glands of experimental diabetic rats have shown an important inhibition in polyenoic fatty acid biosynthesis. This effect was demonstrated by testing the activities of long-chain fatty acyl-CoA synthetase, the delta 5- and delta 6-desaturases of the (n-6) essential fatty-acid series and the delta 6-desaturase of the (n-3) series in liver and adrenal microsomes. The depression in desaturating activity in the insulin-deprived animals was independent of that produced on acyl-CoA-thioester biosynthesis. Experiments measuring the incorporation and transformation of [1-14C]eicosa-8,11,14-trienoic acid in adrenocortical cells isolated from streptozotocin-diabetic animals demonstrated a significant inhibition of arachidonic acid biosynthesis compared to controls. Insulin injections in diabetic rats partially restored the delta 5- and delta 6-desaturase activities. This effect could result from direct action by the hormone since the restoration was reproduced when arachidonic acid biosynthesis was measured after insulin was added to the incubation medium of adrenocortical cells isolated from diabetic animals. The results of the present study provide new information about the implication of this abnormal metabolism in the adrenal gland of diabetic rats.
Mol Cell Endocrinol 1991 May
PMID:Abnormal metabolism of polyunsaturated fatty acids in adrenal glands of diabetic rats. 184 41

In bacteria 5-aminolevulinate, the universal precursor in the biosynthesis of the porphyrin nucleus of hemes, chlorophylls and bilins is synthesised by two different pathways: in non-sulphur purple bacteria (Rhodobacter) or Rhizobium 5-aminolevulinate synthase condenses glycine and succinyl-CoA into 5-aminolevulinate as is the case in mammalian cells and yeast. In cyanobacteria, green and purple sulphur bacteria, as in chloroplasts of higher plants and algae a three step pathway converts glutamate into 5-aminolevulinate. The last step is the conversion of glutamate 1-semialdehyde into 5-aminolevulinate. Using a cDNA clone encoding glutamate 1-semialdehyde aminotransferase from barley, genes for this enzyme were cloned from Synechococcus PCC6301 and Escherichia coli and sequenced. The popC gene of E. coli, previously considered to encode 5-aminolevulinate synthase, appears to be a structural gene for glutamate 1-semialdehyde aminotransferase. Domains with identical amino acid sequences comprise 48% of the primary structure of the barley, cyanobacterial and putative E. coli glutamate 1-semialdehyde aminotransferases. The cyanobacterial and barley enzymes share 72% identical residues. The peptide containing a likely pyridoxamine phosphate binding lysine is conserved in all three protein sequences.
Mol Gen Genet 1991 Jan
PMID:Structural genes of glutamate 1-semialdehyde aminotransferase for porphyrin synthesis in a cyanobacterium and Escherichia coli. 190 Mar 46

No DNA sequence homologous to the penDE gene of Penicillium chrysogenum was found in the genome of three different strains of Cephalosporium acremonium. The pcbC-penDE gene cluster of P. chrysogenum complemented the isopenicillin N synthase deficiency of C. acremonium mutant N2 and resulted in the production of penicillin, in addition to cephalosporin, in cultures supplemented with phenylacetic acid. The penicillin formed was identified as benzylpenicillin by HPLC and NMR studies. The penDE gene of P. chrysogenum is expressed in C. acremonium forming a transcript of 1.15 kb. The transcript is processed and translated in C. acremonium resulting in the formation of acyl CoA: isopenicillin N acyl transferase. When the penDE gene was introduced into a cephalosporin producing strain, the total titre of beta-lactam antibiotics comprised distinct proportions of penicillin and cephalosporin in different transformants. Analysis of the hybridization patterns of the DNA of C. acremonium transformed with the pcbC or penDE genes indicated that integration occurs by non-homologous recombination.
Mol Gen Genet 1991 Jan
PMID:Expression of the penDE gene of Penicillium chrysogenum encoding isopenicillin N acyltransferase in Cephalosporium acremonium: production of benzylpenicillin by the transformants. 190 Mar 48

The objective of this study was to augment myocardial tissue levels of amphiphiles using a treatment protocol of pantothenic acid, cysteine and dithiothreitol (DTT) in 24 hr fasted pigs and to test their influence on mechanical recovery in reperfusion. Eighteen pig hearts were extracorporeally perfused aerobically, subjected to regionally reversible ischemia in the left anterior descending perfusion system and reperfused. Nine hearts served as a placebo group; nine hearts were treated. All hearts received trace-labeled palmitate to measure fatty acid oxidation and were perfused with an infusion of 20% Intralipid to augment perfusate levels of fatty acids. Fasting alone in the presence of carbon substrates in the coronary perfusate was not sufficient to de-inhibit pantothenic acid kinase such that CoA synthesis was not enhanced. Tissue contents of triacylglycerols and phospholipids in reperfused myocardium were no different than in aerobic heart muscle but free CoA and free and total carnitine were reduced, suggesting a leakage of cytosolic contents across injured sarcolemma. Treatment significantly impaired mechanical recovery during reflow, presumable due to the noxious properties of DTT whose reported effects in heart muscle are wide ranging, difficult to predict in intact hearts and may be harmful.
Mol Cell Biochem 1991 Jun 26
PMID:The effects of pantothenic acid, cysteine and dithiothreitol in intact, reperfused pig hearts. 192 7

We know of three routes that organisms have evolved to synthesize complex organic molecules from CO2: the Calvin cycle, the reverse tricarboxylic acid cycle, and the reductive acetyl-CoA pathway. This review describes the enzymatic steps involved in the acetyl-CoA pathway, also called the Wood pathway, which is the major mechanism of CO2 fixation under anaerobic conditions. The acetyl-CoA pathway is also able to form acetyl-CoA from carbon monoxide. There are two parts to the acetyl-CoA pathway: (1) reduction of CO2 to methyltetrahydrofolate (methyl-H4folate) and (2) synthesis of acetyl-CoA from methyl-H4folate, a carboxyl donor such as CO or CO2, and CoA. This pathway is unique in that the major intermediates are enzyme-bound and are often organometallic complexes. Our current understanding of the pathway is based on radioactive and stable isotope tracer studies, purification of the component enzymes (some extremely oxygen sensitive), and identification of the enzyme-bound intermediates by chromatographic, spectroscopic, and electrochemical techniques. This review describes the remarkable series of enzymatic steps involved in acetyl-CoA formation by this pathway that is a key component of the global carbon cycle.
Crit Rev Biochem Mol Biol 1991
PMID:Enzymology of the acetyl-CoA pathway of CO2 fixation. 193 70

Several studies have shown that in animals fed fish oils, docosahexaenoic acid (DHA) is incorporated into cardiac phosphatidylcholines (PC) mainly at the expense of arachidonic acid. In this study we were interested in examining if the enzymatic system involved in the remodeling of membrane PC presented any selectivity for DHA in rat heart. The enzymes that were studied from sequential incubations carried out in parallel, were acyl-CoA synthetase (EC 6.2.1.3) and acyl-CoA:lysophosphatidylcholine acyltransferase (EC 2.3.1.23) (ACLAT). The heart preparations examined were homogenates of whole heart and of purified cultured rat ventricular myocytes. Results showed that ACLAT tended to preferentially incorporate into PC the polyunsaturated fatty acids of the n-6 series (+30%) rather than those of the n-3 series. DHA, however, inhibited the incorporation of arachidonic acid (AA) into PC by 50% at a molar ratio (DHA/AA) of 1.5. This phenomenon seems to be related to the competitive inhibition exerted by DHA on the thio-esterification of AA, a reaction catalyzed by acyl-CoA synthetase. This inhibitory effect appears to be dependent on the kinetic properties of the acyl-CoA synthetase toward DHA which, among the fatty acids examined, exhibited the lowest apparent Km and Vmax. It is suggested that the intracellular pool of DHA-CoA is the determinant species in altering the DHA composition of cardiac PC in animals given fish oils.
Mol Cell Biochem 1990 Mar 27
PMID:In vitro study of docosahexaenoic acid incorporation into phosphatidylcholine by enzymes of rat heart. 197 6

Acyl-CoA: lysolecithin and lysolecithin: lysolecithin acyltransferases, as well as acyl-CoA hydrolase are important enzymes in lung lipid metabolism. They use amphiphylic lipids as substrates and differ in subcellular localization. In this sense, lipid-protein interactions can be an essential factor in their activity. We have studied the effect of albumin, as lipid-binding protein model, in the activities of these enzymes. Acyl-CoA hydrolase was inhibited in the presence of albumin, whereas acyl-CoA: lysolecithin acyltransferase showed a complex effect of activation depending on both albumin concentration and palmitoyl-CoA/lysolecithin molar ratio. Lysolecithin: lysolecithin acyltransferase was affected differentially on its two activities. Hydrolysis remained unaffected and transacylation was inhibited by albumin. These results are consequence of the interaction of albumin with both lipidic substrates that changes their critical micellar concentration.
Mol Cell Biochem 1990 May 10
PMID:Effect of albumin on acyl-CoA: lysolecithin acyltransferase, lysolecithin: lysolecithin acyltransferase and acyl-CoA hydrolase from rabbit lung. 197 20


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