Interaction of pig kidney and lentil seedling copper-containing amine oxidases with guanidinium compounds

The effect of guanidinium compounds on the catalytic mechanism of pig kidney and lentil seedling amine oxidases has been investigated by polarographic techniques and spectroscopy. Guanidine does not inhibit the lentil enzyme and is a weak inhibitor for pig kidney amine oxidase (Ki=1 mM), whereas aminoguanidine is an irreversible inhibitor of both enzymes, with a Ki value of 10(-6) M. 1,4-Diguanidino butane (arcaine) is a competitive inhibitor for both pig and lentil amine oxidases. Amiloride is a competitive inhibitor for pig enzyme, but upon prolonged incubation with this drug the enzyme gradually loses its activity in an irreversible manner.     

Comparison of kinetic properties of amine oxidases from sainfoin and lentil and immunochemical characterization of copper/quinoprotein amine oxidases

Kinetic properties of novel amine oxidase isolated from sainfoin (Onobrychis viciifolia) were compared to those of typical plant amine oxidase (EC 1.4.3.6) from lentil (Lens culinaris). The amine oxidase from sainfoin was active toward substrates, such as 1,5-diaminopentane (cadaverine) with K(m) of 0.09 mM and 1,4-diaminobutane (putrescine) with K(m) of 0.24 mM. The maximum rate of oxidation for cadaverine at saturating concentration was 2.7 fold higher than that of putrescine. The amine oxidase from lentil had the maximum rate for putrescine comparable to the rate of sainfoin amine oxidase with the same substrate. Both amine oxidases, like other plant Cu-amine oxidases, were inhibited by substrate analogs (1,5-diamino-3-pentanone, 1,4-diamino-2-butanone and aminoguanidine), Cu2+ chelating agents (diethyltriamine, 1,10-phenanthroline, 8-hydroxyquinoline, 2,2'-bipyridyl, imidazole, sodium cyanide and sodium azide), some alkaloids (L-lobeline and cinchonine), some lathyrogens (beta-aminopropionitrile and aminoacetonitrile) and other inhibitors (benzamide oxime, acetone oxime, hydroxylamine and pargyline). Tested by Ouchterlony's double diffusion in agarose gel, polyclonal antibodies against the amine oxidase from sainfoin, pea and grass pea cross-reacted with amine oxidases from several other Fabaceae and from barley (Hordeum vulgare) of Poaceae, while amine oxidase from the filamentous fungus Aspergillus niger did not cross-react at all. However, using Western blotting after SDS-PAGE with rabbit polyclonal antibodies against the amine oxidase from Aspergillus niger, some degree of similarity of plant amine oxidases from sainfoin, pea, field pea, grass pea, fenugreek, common melilot, white sweetclover and Vicia panonica with the A. niger amine oxidase was confirmed.     

Conformational lock and dissociative thermal inactivation of lentil seedling amine oxidase

The kinetics of thermal inactivation of copper-containing amine oxidase from lentil seedlings were studied in a 100 mM potassium phosphate buffer, pH 7, using putrescine as the substrate. The temperature range was between 47-60 degrees C. The thermal inactivation curves were not linear at 52 and 57 degrees C; three linear phases were shown. The first phase gave some information about the number of dimeric forms of the enzyme that were induced by the higher temperatures using the "conformational lock" pertaining theory to oligomeric enzyme. The "conformational lock" caused two additional dimeric forms of the enzyme when the temperature increased to 57 degrees C. The second and third phases were interpreted according to a dissociative thermal inactivation model. These phases showed that lentil amine oxidase was reversibly-dissociated before the irreversible thermal inactivation. Although lentil amine oxidase is not a thermostable enzyme, its dimeric structure can form "conformational lock," conferring a structural tolerance to the enzyme against heat stress.     

Microheterogeneity of lentil seedling (Lens culinaris) amine oxidase

Purified lentil seedling amino oxidase (LSAO) is homogeneous in the analytical ultracentrifuge, but shows heterogeneity in gel-filtration HPLC and in PAGE. Two components were obtained from HPLC and PAGE, but at least 6-7 subforms were seen by electrofocusing techniques. The chromatographic and electrophoretic forms are not interconvertible, indicating the presence of covalent differences. The electrophoretic pattern, but not the chromatographic pattern, is modified by treating the enzyme with a pool of glycohydrolases. The copper-free enzyme shows the same type of heterogeneity as the native enzyme, this ruling out the possibility that some subforms were due to the presence of apoenzyme.     

Two-state irreversible thermal denaturation of Euphorbia characias latex amine oxidase

Thermal denaturation of Euphorbia latex amine oxidase (ELAO) has been studied by enzymatic activity, circular dichroism and differential scanning calorimetry. Thermal denaturation of ELAO is shown to be an irreversible process. Checking the validity of two-state it really describes satisfactorily the thermal denaturation of ELAO. Based on this model we obtain the activation energy, parameter T(*) (the absolute temperature at which the rate constant of denaturation is equal to 1 min(-1)), and total enthalpy of ELAO denaturation. HPLC experiments show that the thermal denatured enzyme conserves its dimeric state. The N(2)-->kD(2) model for thermal denaturation of ELAO is proposed: where N(2) and D(2) are the native and denatured dimer, respectively.     

Thermal dissection of lentil seedling amine oxidase domains by differential scanning calorimetry

The relationships between the structural and energetic domains of lentil seedling amine oxidase (LSAO) were investigated using modifiers that target the active site and the carbohydrate moiety of the enzyme. An irreversible inhibitor, aminoguanidine, specifically modified the active site of the lentil enzyme, whereas sodium metaperiodate cleaves carbohydrate moieties covalently bound to the native enzyme. Differential scanning calorimetry (DSC) measurements were made on the modified LSAOs. Deconvolution of the reversible thermal DSC profiles of the modified enzyme gave three subpeaks (energetic domains), each of which was assigned to one of the three structural domains of the native protein. Our results led us to conclude that deglycosylation of LSAO has no effect on thermal stability, whereas binding of the inhibitor imparts more stability to the enzyme.     

Transient kinetics of copper-containing lentil (Lens culinaris) seedling amine oxidase.

The reaction between lentil (Lens culinaris) seedling amine oxidase and its chromogenic substrate, p-dimethylaminomethylbenzylamine, has been studied by the stopped-flow technique. Upon being mixed with substrate in the absence of oxygen, the enzyme is bleached in a complex kinetic process. A yellow intermediate absorbing at 464 nm and the first product (aldehyde) are formed in subsequent steps. When oxygenated buffer is mixed with substrate-reduced amine oxidase, the 496 nm absorption of the oxidized enzyme is very rapidly restored in a second-order process (k = 2.5 X 10(7) M-1 X S-1). This reaction is appreciable even at very low oxygen concentration, in keeping with the fairly low Km for O2 measured by steady-state kinetics.     

Tyramine oxidation by copper/TPQ amine oxidase and peroxidase from Euphorbia characias latex

Tyramine, an important plant intermediate, was found to be a substrate for two proteins, a copper amine oxidase and a peroxidase from Euphorbia characias latex. The oxidation of tyramine took place by two different mechanisms: oxidative deamination to p-hydroxyphenylacetaldehyde by the amine oxidase and formation of di-tyramine by the peroxidase. The di-tyramine was further oxidized at the two amino groups by the amino oxidase, whereas p-hydroxyphenylacetaldehyde was transformed to di-p-hydroxyphenylacetaldehyde by the peroxidase. Data obtained in this study indicate a new interesting scenario in the metabolism of tyramine.     

Terpenoid biosynthesis in Euphorbia latex

The latex of Euphorbia lathyris can utilize acetate, pyruvate and mevalonate for triterpene synthesis in vitro. Acetyl-CoA, hydroxymethylglutarate, hydroxymethylglutaryl-CoA and isopentenyl pyrophosphate were not effective as precursors for triterpene biosynthesis. Acetate is utilized only by the terpenoid pathway and by the tricarboxylic acid cycle; it is not used for fatty acid synthesis in this system. However, phospholipids were found to be efficient acyl donors for triterpene ester synthesis. The observed selectivity of precursor utilization as well as the observed rates for product formation indicate separate sites for triterpenol and triterpene ester synthesis and that one is not precursor for the other.     

Multiple amine oxidases in cucumber seedlings

Cell-free extracts of cucumber (Cucumis sativus L. cv. National Pickling) seedlings were found to have amine oxidase activity when assayed with tryptamine as a substrate. Studies of the effect of lowered pH on the extract indicated that this activity was heterogeneous, and three amine oxidases could be separated by ion exchange chromatography. The partially purified enzymes were tested for their activities with several substrates and for their sensitivities to various amine oxidase inhibitors. One of the enzymes may be a monoamine oxidase, although it is inhibited by some diamine oxidase inhibitors. The other two enzymes have properties more characteristic of the diamine oxidases. The possible relationship of the amine oxidases to indoleacetic acid biosynthesis in cucumber seedlings is discussed.     

Catalysis by amine oxidases in nonaqueous media

The synthetic potential of amine oxidases was examined in different reaction systems, ranging from aqueous solutions to organic solvents with low water content. Substantial conversion was achieved in biphasic systems, which eliminated the product inhibition observed in the aqueous system. The conversion was particularly high in the more hydrophobic solvents. The use of low water systems was studied using amine oxidase immobilized on celite and pre-equilibrated in a salt hydrate environment to reach a constant water activity. Addition of water in the solvent was shown to be unnecessary, with significant conversion being attained through the water supplied by pre-equilibration of the immobilized enzyme at a_w=0.55. The use of organic solvent-containing reaction systems thus presents a convenient method for oxidising poorly water-soluble amines using amine oxidases.     

Characterization of free and immobilized amine oxidases

Bovine plasma amine oxidase was covalently bound to CH-Sepharose 4B by 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride. The immobilized enzyme showed no significant change in specific activity when spermidine was the substrate, while the enzyme affinity toward benzylamine and propylamine increased significantly. Similarly, the pig kidney diamine oxidase physically adsorbed to Con A-Sepharose showed large changes in affinity toward substrates such as p-dimethylaminoethylbenzylamine with respect to the native enzyme. These changes are discussed in terms of active site modification as a consequence of the enzyme immobilization.     

Semicarbazide-sensitive amine oxidases in pig dental pulp

The behaviour of semicarbazide-sensitive amine oxidase (SSAO; E.C. 1.4.3.6) in dental pulp has been studied, with particular reference to the metabolism of 5-hydroxytryptamine (5-HT; serotonin). Kinetic studies using radioactively labelled substrates have confirmed benzylamine, 2-phenylethylamine (PEA) and 5-HT to be substrates for microsomal SSAO from porcine dental pulp. Kinetic substrate-competition studies indicated the presence of two forms of SSAO in dental pulp; one that oxidises benzylamine and PEA but not 5-HT and a second that oxidises 5-HT and PEA but not benzylamine. These two forms also differ in their thermostabilities at 60 and 70 degrees C, although this thermal inactivation is partly reversible.     

Functions of amine oxidases in plant development and defence

Copper amine oxidases and flavin-containing amine oxidases catalyse the oxidative de-amination of polyamines, which are ubiquitous compounds essential for cell growth and proliferation. Far from being only a means of degrading cellular polyamines and, thus, contributing to polyamine homeostasis, amine oxidases participate in important physiological processes through their reaction products. In plants, the production of hydrogen peroxide (H(2)O(2)) deriving from polyamine oxidation has been correlated with cell wall maturation and lignification during development as well as with wound-healing and cell wall reinforcement during pathogen invasion. As a signal molecule, H(2)O(2) derived from polyamine oxidation mediates cell death, the hypersensitive response and the expression of defence genes. Furthermore, aminoaldehydes and 1,3-diaminopropane from polyamine oxidation are involved in secondary metabolite synthesis and abiotic stress tolerance.     

Reaction of beef plasma and lentil seedlings Cu-amine oxidases with phenylhydrazine

The reaction of copper amine oxidases from beef plasma and lentil seedlings with hydrazine derivatives has been studied. A 1:1 stoichiometry was always found for the irreversible binding to the dimeric proteins. The formation of the adduct does not require the presence of oxygen or copper. Substrates compete with hydrazine derivatives for the binding to the enzymes. The binding of hydrazines and of substrate has different effects on the EPR spectra of enzymic copper.     

Reaction between mammalian amine oxidases and their antibodies

Antibodies have been raised against purified beef plasma, pig plasma and pig kidney amine oxidases. Despite the overall similarity, no immunological cross-reactivity was observed among these enzymes, even using a very sensitive light-scattering technique. The presence of substrate affects the rate of the reaction between kidney diamine oxidase and its antibody, but not that of other amine oxidases.     

Subcellular fractionation of triterpenoid biosynthesis in Euphorbia lathyris latex

Latex isolated from laticifer cells of Euphorbia lathyris maintained its ability to synthesize triterpenols (and their esters) from acetate. When the latex was centrifugated at 5 000 g for 15 min. this biosynthetic activity could be subdivided into two separate fractions; the acetate to β-hydroxymethyl glutaryl-coenzyme A activity remained in the supernatant, while the β-hydroxymethyl glutaryl-coenzyme A to triterpenol activity was pelleted. Further purification of the pellet by isopycnic centrifugation on Percoll gradients yielded at least three particles: latex particles, starch grains, and a single membrane-bound organelle. Electron micrographs were made of all of these latex particles. The single membrane-bound organelle was only observed in the region of the density gradient that exhibited the ability to incorporate mevalonic acid into the triterpenoids. In addition, the enzyme β-hydroxymethyl glutaryl-coenzyme A reductase (EC 1.1.1.34) was found in the 5000 g pellet, while β-hydroxymethyl glutaryl-coenzyme A lyase (EC 4.1.3.4) remained in the supernatant.     

Mobilisation of reserves and the earliest synthesis of sterols and latex triterpenes during germination and early seedling growth of Euphorbia lathyris

Seedlings of Euphorbia lathyris L. were grown in the dark at 25°C. Levels of amino acids, sugars and soluble phosphate in the endosperm increased upon germination after 4 days of imbibition, while the amounts of mineral reserves Mg²⁺ and K⁺ started decreasing. Ca²⁺ was not translocated from the endosperm to the seedling. Maximum values for amino acids were found on day 7, and the highest amounts of sugars were present on day 10. The endosperm was completely depleted by day 12.
Before germination (days 1–3) a low level of sterol synthesis in the embryo was detected with labeled sucrose and serine and to a lesser extent with labeled pyruvate. The label of [2-¹⁴C]-mevalonate proceeded exclusively to squalene. Laticifers started the synthesis of their triterpenes upon germination (day 4), using sucrose as a main substrate. A concurrent increase of sterol synthesis outside the laticifers was traced with labeled serine. Radioactive triterpenes, 4 α-methylsterols and sterols were detected in growing seedlings after [¹⁴C]-mevalonate uptake, but most of its label accumulated in squalene. The use of labeled mevalonate in sterol synthesis in growing seedlings is discussed.     

The amine oxidases of human placenta and pregnancy plasma

1. The purification of monoamine oxidase and diamine oxidase from normal human term placental tissue is described. 2. The properties of these enzymes are reported and compared with the properties of unpurified human pregnancy plasma. 3. This comparison shows that the amine oxidase of pregnancy plasma has properties corresponding to purified placental diamine oxidase, suggesting a placental origin for the plasma enzyme system. 4. Detailed kinetic study of the purified placental diamine oxidase suggests that it has a Ping Pong sequence, a mechanism of action and rate-limiting step similar to the diamine oxidase of pig kidney. 5. It is suggested that the enzyme system is important in protecting the foeto-placental unit from excesses of biogenic amines.