Characterization of two 3-ketothiolases possessing differing substrate specificities in the polyhydroxyalkanoate synthesizing organism Alcaligenes eutrophus

Abstract Two constitutive acetyl-CoA acetyltransferases (3-ketothiolases A and B) were purified from Alcaligenes eutrophus . Enzyme A was active with only acetoacetyl-CoA and 3-ketopentanoyl-CoA, whereas enzyme B was active with all the 3-ketoacyl-CoAs (C₄−C₁₀) tested. Enzyme A appeared to be a tetramer ( M _r 70 000) with identical subunits ( M _r 44 000) and enzyme B had a similar M _r of 168 000 (containing M _r 46 000 subunits). Enzymes A and B had isoelectric points of 5.0 and 6.4, respectively. The stoichiometry of the reactions catalysed by each enzyme was confirmed. K _m values of 44 μM and 394 μM for acetoacetyl-CoA, and 16 μM and 93 μM for CoA, were determined with enzymes A and B, respectively. Enzymes A and B gave K _m values of 1.1 mM and 230 μM, respectively, for acetyl-CoA. The condensation reaction was potently inhibited by CoA in both cases.     

Inhibition of Type A Monoamine Oxidase by Methylquinolines and Structurally Related Compounds

Abstract: A series of methylquinolines (MQ) were found to inhibit markedly type A monoamine oxidase (MAO) in human brain synaptosomal mitochondria. 4-MQ and 6-MQ inhibited type A MAO (MAO-A) competitively and 7- and 8-MQ inhibited MAO-A noncompetitively. Among these four isomers of MQ, 6-MQ was the most potent inhibitor; the K _i value toward MAO-A was 23.4 ± 1.8 μ M , which was smaller than the K _m value toward kynuramine, ± amine substrate, 46.2 ± 2.8 μ M . On the other hand, MQ were very weak inhibitors of type B MAO (MAO-B) and 8-MQ did not inhibit MAO-B in brain synaptosomal mitochondria. The inhibition of MAO-A proved to be reversible; by dialysis the inhibition of MQ was completely reversible. The affinity of these isomers of MQ toward MAO-A or -B was confirmed further with human liver mitochondria as sources of MAO-A and -B and with human placental mitochondria and rat pheochromocytoma PC12h cell line as sources of MAO-A. The relationship of the chemical structure of structurally related quinoline and isoquinoline derivatives to inhibition of the activity of type A or B MAO was examined.     

Monoamine oxidase activity in kidney and heart of Piaractus mesopotamicus (Holmberg)

The values of Michaelis–Menten constant (K_M) and maximum velocity (V_MAX) for kidney and heart monoamine oxidase (MAO) from pacu Piaractus mesopotamicus were determined. The mean ± s . e . K_M values were 17·28 ± 2·27 μM for kidney and 15·38 ± 1·86 μM for heart. MAO activities were 111·60 ± 3·25 and 15·12 ± 0·30 nmols min⁻¹ g⁻¹ of wet tissue for kidney and heart, respectively. In addition, MAO inhibitory studies in these two tissues indicate that this enzyme may be a different isoform of MAO.     

The role of NADH- and NADPH-linked acetoacetyl-CoA reductases in the poly-3-hydroxybutyrate synthesizing organism Alcaligenes eutrophus

Abstract Two constitutive acetoacetyl-CoA (AcAc-CoA) reductases were purified from Alcaligenes eutrophus . Incorporation of [1-¹⁴C]-acetyl-CoA into poly-3-hydroxybutyrate (PHB) by systems reconstituted from purified preparations of either 3-ketothiolase, AcAc-CoA reductase and PHB synthase, occurred only when NADPH-AcAc-CoA reductase was present. The NADH reductase was active with all of the d (−)- and l (+)-3-hydroxyacyl-CoA substrates tested (C₄-C₁₀), whereas the NADPH reductase was only active with d (−)-3-hydroxyacyl-CoAs (C₄-C₆). The products of AcAc-CoA reduction by the NADH- and NADPH-linked enzymes were l (+)-3-hydroxybutyryl-CoA and d (−)-3-hydroxybutyryl-CoA, respectively. The NADH-linked enzyme had an M _r of 150,000 (containing identical M _r 30,000 sub-units) and the NADPH-linked enzyme appeared to be a tetramer ( M _r 84,000) with identical sub-units ( M _r 23,000). K _m^app values of 22 μM and 5 μM for AcAc-CoA and 13 μM (NADH) and 19 μM (NADPH) for the coenzymes were determined for the NADH- and NADPH-linked enzymes, respectively.     

Deamination of 5-Hydroxytryptamine by Both Forms of Monoamine Oxidase in the Rat Brain

Abstract: K _m and V _max values of monoamine oxidase (MAO) A and B towards 5-hydroxytryptamine were determined for rat brain homogenates after the in vitro inhibition of one of the two forms by the selective inhibitors clorgyline and l -deprenyl. K _m values of 178 and 1170μ m , and V _max values of 0.73 and 0.09 nmol·mg protein⁻¹·min⁻¹ towards 5-hydroxytryptamine were found for MAO-A and -B, respectively. The K ₁ for 5-hydroxytryptamine as a competitive inhibitor of β-phenethylamine oxidation by MAO-B was found to be 1400 μm. The significance of these findings is discussed.     

Regionally Distinct N-Methyl-D-Aspartate Receptors Distinguished by Quantitative Autoradiography of [3H]MK-801 Binding in Rat Brain

Abstract: Quantitative autoradiography of [³H]MK-801 binding was used to characterize regional differences in N -methyl- d -aspartate (NMDA) receptor pharmacology in rat CNS. Regionally distinct populations of NMDA receptors were distinguished on the basis of regulation of [³H]MK-801 binding by the NMDA antagonist 3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (CPP). CPP inhibited [³H]MK-801 binding in outer cortex (OC) and medial cortex (MC) with apparent K _i values of 0.32-0.48 μ M , whereas in the medial striatum (MS), lateral striatum (LS), CA1, and dentate gyrus (DG) of hippocampus, apparent K _i values were 1.1-1.6 μ M . In medial thalamus (MT) and lateral thalamus (LT) the apparent K _i values were 0.78 μ M . In the presence of added glutamate (3 μ M ), the relative differences in apparent K _i values between regions maintained a similar relationship with the exception of the OC. Inhibition of [³H]MK-801 binding by the glycine site antagonist 7-chlorokynurenic acid (7-ClKyn) distinguished at least two populations of NMDA receptors that differed from populations defined by CPP displacement. 7-ClKyn inhibited [³H]MK-801 binding in OC, MC, MS, and LS with apparent K _i values of 6.3-8.6 μ M , whereas in CA1, DG, LT, and MT, K _i values were 11.4-13.6 μ M . In the presence of added glycine (1 μ M ), the relative differences in apparent K _i values were maintained. Under conditions of differential receptor activation, regional differences in NMDA receptor pharmacology can be detected using [³H]MK-801 binding.     

Characteristics of the Inhibition of Rat Brain Monoamine Oxidase In Vitro by MD780515

Abstract: The inhibition of type A and B MAO in rat forebrain crude membrane preparation by MD780515. (3-{4-[(3-cyanophenyl)methoxy]phenyl)-5-(methoxymethyl)-2-oxazolidinone Centre de Recherche Delalande, France) has been investigated in vitro with 5-hydroxytryptamine and β-phenylethyl-amine as substrates. The inhibition of the high-affinity binding of [³H]harmaline, a specific marker of type A MAO, was also studied. In the experimental conditions used, MD780515 appeared to be a pure mixed MAO inhibitor (MAOI) of 5-HT deamination, both K_m , and V_max being altered [K₁ (Dixon) = K_i , (slope) = 2 nM; K_i (intercept) = 12 nM]. Phenylethylamine oxidation could be considered to be noncompetitively inhibited by MD780515 (K_i (slope) = 78 nM; K_i , (intercept) = 103 nM). Dixon and intercept replots were hyperbolic, suggesting that, at high concentrations, PEA could be deaminated by both forms of MAO. This hypothesis was confirmed by biphasic inhibition curves of 80 μM-PEA obtained when MD7805 15 , clorgyline, harmaline and deprenyl were used as MAOIs. MD780515 was a potent inhibitor (IC₅₀= 1–2 nM) of [³H]harmaline binding. Comparatively, clorgyline, 'cold' harmaline and Lilly 51641 inhibited ³H ligand binding, with IC₅₀ of 5, 7 and 40 nM respectively. In conclusion, MD780515 is a reversible, specific and potent type A MAOI.     

(S)-Carboxy-3-Hydroxyphenylglycine, an Antagonist of Metabotropic Glutamate Receptor (mGluR)1a and an Agonist of mGluR2, Protects Against Audiogenic Seizures in DBA/2 Mice

Abstract: The in vivo anticonvulsant effects and in vitro metabo-tropic glutamate receptor selectivity of ( S )-4-carboxy-3-hydroxy-phenylglycine [(S)-4C3HPG] were examined. Intracerebroventricular injection of (S)-4C3HPG dose-dependently antagonized audiogenic-induced clonic and tonic convulsions in DBA/2 mice with ED₆₀ values of 76 and 110-nmol per mouse, respectively. (S)-4C3HPG dose-dependently inhibited the spontaneously evoked epileptic spikes in a cingulate cortex-corpus callosum slice preparation. (SJ-4C3HPG displaced the binding of [³H]glutamate in membranes prepared from baby hamster kidney (BHK) cells expressing the metabotropic glutamate receptor mGluR1a with an EC₅₀ of 5 β 1 u M. ( S )-4C3HPG dose-dependently antagonized glutamate-stimulated phosphoinositide hydrolysis in BHK cells expressing mGluR 1a with an IC₅₀ of 15 β 3 μ M. ( S )-4C3HPG was, however, an agonist at mGluR2 with an EC₆₀ of 21 β 4 μ M for inhibition of forskolin-stimulated cyclic AMP formation in BHK cells expressing the mGluR2. ( S )-4C3HPG had no effects at mGluR4a. These data suggest that the anticonvulsant action of ( S )-4C3HPG is mediated by combined antagonism of mGluRIa and agonism of mGluR2. These results suggest the importance of mGluR1a and/or mGluR2 in the control of epileptic activity.     

Contribution of Sulfate Conjugation, Deamination, and O-Methylation to Metabolism of Dopamine and Norepinephrine in Human Brain

Abstract: The kinetic constants were determined for dopamine (DA) and norepinephrine (NE) metabolism by phenolsulfotransferase (PST), type A and B monoamine oxidase (MAO), and membrane-bound and soluble catechol- O - methyltransferase (COMT) in frontal lobe preparations of human brain. PST and membrane-bound COMT were found to have the lowest K _m, values for both catecholamines. By means of the appropriate rate equations and the calculated kinetic constants for each enzyme, the activity of each enzymatic pathway was determined at varying concentrations of DA and NE. Results indicate that deamination by MAO is the principal pathway for the enzymatic inactivation of DA whereas NE is largely metabolized by MAO type A and membrane-bound COMT under the in vitro assay conditions used. At concentrations less than 100 μ M , soluble COMT'contributes less than 5% to the total catabolism of either catecholamine. PST can contribute up to 15% of the total DA metabolism and 7% of NE metabolism.     

OHIO-1 β-lactamase resistant to mechanism-based inactivators

Abstract Spontaneous mutants of OHIO-1 β-lactamase, an SHV-1 family enzyme, resistant to inactivation by clavulanic acid, sulbactam and tazobactam, have been isolated. The resistant mutant (M4) was inhibited by 100 μg/ml ampicillin plus 32 μg/ml clavulanic acid compared to ≤2 μg/ml clavulanic acid required for the parent strain. The pI of the mutant beta-lactamase was 7.0, identical to the parent enzyme. Kinetic parameters showed that the M4 enzyme had an increased V_max/K_m ratio for all beta-lactam substrates compared to the parent enzyme. The apparent K _i for clavulanic acid, sulbactam and tazobactam was 15.1, 182 and 18 μM, respectively, up to 70-fold higher than the parent enzyme. Partial nucleotide sequencing revealed that the mutant enzyme had a predicted methionine₆₉→ isoleucine₆₉ substitution accounting for the observed changes in substrate specificity.     

Purification and Properties of Succinyl-CoA:3-Oxo-Acid CoA-Transferase from Rat Brain

Abstract: Rat brain succinyl-CoA:3-oxo-acid CoA-transferase (3-Oxo-acid CoA-transferase, EC 2.8.3.5), the first committed enzyme in the oxidation of ketone bodies in mitochondria, was purified to apparent homogeneity as judged by polyacrylamide gel electrophoresis. The enzyme has an apparent molecular weight of 90,000 as determined by (3-150 Sephadex chromatography, and an apparent subunit molecular weight of 53,000 as determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The specific activity of the purified enzyme was approximately 161 μmol/min/mg of protein. Initial velocity studies of the forward reaction (acetoacetate → acetoacetyl-CoA) are consistent with a "ping pong" mechanism. Substrate inhibition appears above approximately 1 m M acetoacetate. Apparent K_m, values were 70 μM for acetoacetate and 156 μ M for succinyl-CoA (the forward reaction), and 59 μ M for acetoacetyl-CoA and 25 m M for succinate (the reverse reaction). These values are markedly different from those reported for this enzyme from pig heart.     

Effects of Phospholipases on the Kinetic Properties of Rat Striatal Membrane-Bound Tyrosine Hydroxylase

Abstract: Rat striatal tyrosine hydroxylase can be isolated in both a soluble and a synaptic membrane-bound form. The membrane-bound enzyme, which exhibits lower K _ms for both tyrosine (7 μ M ) and reduced pterin cofactor (110 μ M ) relative to the soluble enzyme (47 μ M and 940 μ M , respectively), can be released from the membrane fraction with mild detergent, and concomitantly its kinetic properties revert to those of the soluble enzyme. Treatment of membrane-bound tyrosine hydroxylase with C. perfringens phospholipase C increased the K _m of the enzyme for tyrosine to 27 μ M and the V _max by 60% without changing the K _m for cofactor. In contrast, treatment of membrane-bound tyrosine hydroxylase with V. russelli phospholipase A₂ increased the K _m for tyrosine to 48 μ M increased the V _max and increased the K _m for cofactor to 560 μ M . The enzyme remained bound to the membrane fraction following both phospholipase treatments. Addition of phospholipids to treated enzyme could partially reverse the effects of phospholipase A₂ treatment, but not the effects of phospholipase C treatment. The kinetic properties of phospholipase-treated, detergent-solubilized tyrosine hydroxylase were identical to those of the control solubilized enzyme. Tyrosine hydroxylase appears to interact with synaptic membrane components to produce at least two separately determined consequences for the kinetic properties of the enzyme.     

Nonselective Inhibition of Monoamine Oxidases A and B by Activators of Soluble Guanylate Cyclase

Several activators of soluble guanylate cyclase were investigated as potential inhibitors of rat liver mitochondrial monoamine oxidases (MAO) A and B. They all fitted into the previously designed molds of substrate–inhibitor binding sites of these enzymes. However, only two of them, NO donors (7-nitro-benzotetrazine-1,3-dioxide (7-NBTDO) and benzodifuroxan), caused nonselective inhibition of MAO A and MAO B with IC ₅₀ values of 1.3-1.6 and 6.3-6.8 M, respectively. The inhibitory effect on both MAO A and MAO B was reduced by mitochondria wash suggesting reversible mode of the enzyme inhibition. There was no correlation between potency of MAO inhibition and activation of human platelet soluble guanylate cyclase. The NO scavenger 2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl-3-oxide (carboxy-PTIO) had no effect on the manifestation of MAO inhibition by benzodifuroxan and 7-NBTDO; however, at 50 M concentration carboxy-PTIO caused potent inhibition of MAO A with minor effect on MAO B activity. The data suggest that nonselective inhibition of MAO A and MAO B by benzodifuroxan and 7-NBTDO can be attributed to the properties of the chemical structures of these compounds. The results of the present study demonstrate a real possibility for the development of a new generation of effective reversible nonselective MAO inhibitors exhibiting equal inhibitory activity with respect to both MAO A and MAO B.     

Comparison of Solubilised Kainate and α-Amino-3-Hydroxy-5-Methylisoxazolepropionate Binding Sites in Chick Cerebellum

Abstract: [³H]Kainate bound to chick cerebellar membranes with a K _D of 0.6 μ M and with an exceptionally high B max of 165 pmol/mg of protein. In octylglucoside-solubilised extracts, the affinity of [³H]kainate was reduced ( K _D= 2.7 μ M ), but the B _max was relatively unchanged (130 pmol/mg of protein). The rank potency of competitive ligands was domoate > kainate > 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) > glutamate. Binding sites for α-[³H]amino-3-hydroxy-5-methylisoxazolepropionate ([³H]AMPA) were much less abundant, with K _D and B _max values in membranes of 86 n M and I pmol/mg of protein, respectively. The affinity of [³H]AMPA binding was also reduced on solubilisation ( K _D= 465 n M ), but there was an increase in the B _max (1.7 pmol/mg of protein). Quisqualate and CNQX were the most effective displacers of [³H]AMPA binding, but kainate was also a relatively potent inhibitor. However, in contrast to the displacement profile for [³H]kainate, domoate was markedly less potent than kainate at displacing [³H]AMPA. These results suggest that [³H]AMPA binds to a small subset of the kainate sites that, unlike the majority of the [³H]kainate binding protein, which has been reported to be located in the Bergmann glia, may represent neuronal unitary non- N -methyl-D-aspartate receptors.     

Spiroethers of German chamomile inhibit production of aflatoxin G1 and trichothecene mycotoxin by inhibiting cytochrome P450 monooxygenases involved in their biosynthesis

The essential oil of German chamomile showed specific inhibition toward aflatoxin G₁ (AFG₁) production, and ( E )- and ( Z )-spiroethers were isolated as the active compounds from the oil. The ( E )- and ( Z )-spiroethers inhibited AFG₁ production of Aspergillus parasiticus with inhibitory concentration 50% (IC₅₀) values of 2.8 and 20.8 μM, respectively, without inhibiting fungal growth. Results of an O- methylsterigmatocystin (OMST) conversion study indicated that the spiroethers specifically inhibited the OMST to AFG₁ pathway. A cytochrome P450 monooxygenase, CYPA, is known as an essential enzyme for this pathway. Because CYPA has homology with TRI4, a key enzyme catalyzing early steps in the biosynthesis of trichothecenes, the inhibitory actions of the two spiroethers against TRI4 reactions and 3-acetyldeoxynivalenol (3-ADON) production were tested. ( E ) - and ( Z ) - spiroethers inhibited the enzymatic activity of TRI4 dose-dependently and interfered with 3-ADON production by Fusarium graminearum , with IC₅₀ values of 27.1 and 103 μM, respectively. Our results suggest that the spiroethers inhibited AFG₁ and 3-ADON production by inhibiting CYPA and TRI4, respectively.     

Purification and some properties of the methyl-CoM reductase of Methanothrix soehngenii

Abstract The methyl-CoM reductase from Methanothrix soehngenii was purified 18-fold to apparent homogeneity with 50% recovery in three steps. The native molecular mass of the enzyme estimated by gel-fitration was 280 kDa. SDS-polyacrylamide gel electrophoresis revealed three protein bands corresponding to M _r 63 900, 41 700 and 30 400 Da. The methyl-coenzyme M reductase constitutes up to 10% of the soluble cell protein. The enzyme has K _m apparent values of 23 μM and 2 mM for N -7-mercaptoheptanoylthreonine phosphate (HS- HTP = component B ) and methyl-coenzyme M (CH₃CoM) respectively. At the optimum pH of 7.0 60 nmol of methane were formed per min per mg protein.     

Competitive Inhibition of γ-Aminobutyric Acid Synaptosomal Uptake by 4-(4'-Azidobenzoimidylamino)butanoic Acid

Abstract: 4-(4'-Azidobenzoimidylamino)butanoic acid (ABBA) is a potent inhibitor of rat brain synaptosomal [³H]γ-aminobutyric acid uptake. K₁ values were calculated to be 8 μM and 16 μM with respect to the high-affinity and the low-affinity uptake processes. These values are of the same order as those reported for nipecotic acid and guvacine, which until now have been the most potent uptake inhibitors available. Since ABBA contains a phenyl group, it might be capable of penetrating the blood-brain barrier, thus becoming a useful GABA mimetic.     

Specific Irreversible Monoamine Oxidase B Inhibitors Stimulate Gene Expression of Aromatic L-Amino Acid Decarboxylase in PC12 Cells

The effect of some selective monoamine oxidase (MAO) inhibitors on aromatic L-amino acid decarboxylase (AADC) gene expression in PC12 cells has been examined. Irreversible MAO B inhibitors [(-)-deprenyl, pargyline, and MDL 72,974A] stimulated AADC gene expression, whereas a selective irreversible MAO A inhibitor (clorgyline) and a reversible MAO B inhibitor (Ro 19-6327) had no effect. Because there is no apparent MAO B activity in PC12 cells, it is postulated that there is a novel site of action for these MAO B inhibitors and that the pharmacological profile of this site matches that of neuroprotective MAO B inhibitors. Finally, it is suggested that the stimulation of AADC gene expression may be relevant to the antiparkinsonian effects of MAO B inhibitors.     

Characterization of Serotonin N-Acetyltransferase in the Lateral Eye of the Green Frog Rana perezi: Protective Action of EGTA

Abstract: The kinetics of seRotonin N -acetyltransferase (NAT) from the lateral eye of Rana perezi have been characterized. NAT from ocular tissue reached maximal activity at a phosphate buffer concentration of 250 m M and a pH of 6.5. Reaction linearity was highly conserved within the homogenate fraction range tested (0.033-0.33). The time course of ocular NAT reaction showed a high linearity at 25 and 35°C. K _m and V_max estimations for acetyl-CoA at a 10 m M tryptamine concentration were 63.3 μ M and 4.42 nmol/h per eye, respectively. Regardless of the acceptor amine (tryptamine or serotonin), the K _m was not affected by the acetyl-CoA concentration (50 or 250 μ M ), whereas the V _max was significantly increased at a 250 μ M acetyl-CoA concentration. Ocular NAT showed a higher affinity for serotonin ( K _m= 20.7 μ M ) than for tryptamine ( K _m= 48-60 μ M ); V _max however, was similar for both substrates. Acetyl-CoA does not protect ocular NAT; in contrast, the use of EGTA (4 m M ) in the assay is essential to protect the enzyme because NAT in ocular crude homogenate shows rapid inactivation. This result suggests that intracellular calcium levels are involved in the NAT inactivation mechanisms in frog ocular tissue.