Properties and Ontogenic Development of Membrane-Bound Histidine Decarboxylase from Rat Brain

Abstract: Histidine decarboxylase (HD) activity was determined in high-speed fractions (100,000 g for 60 min) obtained from whole rat brain homogenates. Twenty-eight percent of the HD activity was associated with membranes, and the remaining was soluble. Several properties of the soluble and membrane-bound HD were compared. No significant differences in the values of K _m for histidine and pyridoxal 5'-phosphate were observed. The solubilization of membrane-bound HD with Triton X-100 resulted in an increase of 60% over the nonsolubilized activity with no changes in the K _m for substrate and cofactor. The proportion of free pyridoxal 5'-phosphate-independent activity was identical in both fractions. The soluble and membrane-bound forms of the enzyme differ slightly in their pH-activity profiles, although both enzymes showed an optimum pH near 6.5. The HD activities present in soluble and membrane fractions were determined at different postnatal ages. The soluble activity increased until day 90, whereas the membrane-bound activity became stabilized from day 20.     

Distinct Cellular Localization of Membrane-Bound and Soluble Forms of Catechol-O-Methyltransferase in Brain

Abstract: The cellular localization of the two forms of catechol- O -methyltransferase (COMT) was investigated by measuring their activities in rat striatum following unilateral stereotaxic injection of kainic acid, which causes degeneration of striatal neurons followed by proliferation of astroglial cells. Membrane-bound COMT activity was decreased in the lesioned striatum, while soluble COMT activity was increased. There was a statistically significant correlation between the ratio of lesioned to control activity for membrane-bound COMT and the neuronal marker enzyme glutamate decarboxylase. Similarly the increase in soluble COMT activity paralleled that of the astroglial marker enzyme, glutamine synthetase. These results indicate that the K _m membrane-bound catechol- O -methyltransferase may be localized predominantly in neurons, whereas the high-K_m soluble enzyme is found in glial cells.     

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.     

Enzymes involved in ammonia assimilation in the fungus Acremonium persicinum

Abstract Acremonium persicinum grown in batch culture with ammonium tartrate as the nitrogen source possessed an NADP⁺-dependent glutamate dehydrogenase and a glutamine synthetase. Glutamate synthase was not detected under the culture conditions used. Kinetic studies of the NADP⁺-dependent glutamate dehydrogenase at 25°C and pH 7.6 revealed an apparent K _m of 3.2 × 10⁻⁴ M for 2-oxoglutarate and an apparent K _m of 1.0 × 10⁻⁵ M for ammonium ions, with corresponding apparent V _max values of 0.089 and 0.13 μmol substrate converted/min/mg of protein, respectively. Glutamine synthetase was measured by the γ-glutamyl transferase reaction at 30°C and pH 7.55. This transferase reaction of glutamine synthetase had a higher rate at 30°C than at 25°C or 37°C.     

A constitutive, plasma-membrane bound β-glucosidase in Trichoderma reesei

Abstract Plasma membranes of Trichoderma reesei QM 9414, isolated from protoplasts by means of the concanavalin A procedure, contained β-glucosidase activity, which appeared constitutively upon growth on glucose. The enzyme had a pH optimum around 6, and was active on p -nitrophenyl-β- d -glucoside, cellobiose and sophorose ( K _m 0.7, 3.9 and 3.1 mM, respectively). Glucose was only weakly inhibitory ( K _i 7 mM). Treatment of the plasma membranes with Triton X-100, Tween 80 or digitonin solubilized more than 60% of the membrane-bound β-glucosidase activity. The enzyme so solubilized exhibited an M _r of 70 000 ± 5000 and an isoelectric point at pH 8.2 ± 0.3.     

Purification, Biochemical and Immunological Characterization of Acid Invertases from Apple Fruit

The soluble acid invertase (SAI) and cell wall-bound invertase (CWI) were purified from apple fruit to apparent electrophoretic homogeneity. Based on sequencing, substrate specificity, and immunoblotting assay, the purified enzymes were identified to be two isoforms of acid invertase (β-fructosidase; EC 3.2.1.26). The SAI and CWI have the same apparent molecular mass with a holoenzyme of molecular mass of 220 kDa composed of 50 kDa subunits. The SAI has a lower Km value for sucrose and higher Km for raffinose compared with CWI. These acid invertases differ from those in other plants in some of their biochemical properties, such as the extremely high Km value for raffinose, no hydrolytic activity for stachyose, and a mixed form of inhibition by fructose to their activity. The antibodies directed against the SAI and CWI recognized, from the crude extract, three polypeptides with a molecular mass of 50, 68, and 30 kDa, respectively.These results provide a substantial basis for the further studies of the acid invertases in apple fruit.     

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.     

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.     

Kinetic Properties of Bovine Pineal Tryptophan-5-Monooxygenase Activated by an Endogenous Activating Substance

Abstract: We previously reported that an endogenous activating substance different from bovine serum albumin, phospholipids and heparin, exists in the extract from bovine pineal glands and that this substance interacts with tryptophan-5-monooxygenase under reducing conditions with sulfhydryl reagents, to stimulate monooxygenase activity. The present paper reports that the activating substance is of peptide nature; that it is sensitive to trypsin-digestion; and that it does not change the apparent K _m's for substrates, L-tryptophan and oxygen, and coenzyme, reduced biopterin or DMPH₄: but that it increases the V _max 1.5- to 2.3-fold. These results suggest that an activating protein, present in some particles of the cell structure, activates tryptophan-5-monooxygenase under the regulation of a sulfhydryl compound. The apparent K _m's for reduced biopterin and DMPH₄ were 77.2μM and 294 μM, respectively. The apparent K _m's for L-tryptophan and oxygen with reduced biopterin were 15.0 μM and 4.7%, respectively: with DMPH₄, they were 11.0 μM and 8.5%, respectively. Significant inhibition of both L-tryptophan and oxygen was observed with reduced biopterin, but not with DMPH₄ (at the tested concentrations of up to 0.5 MM and 20%, respectively).     

Soils contain two different activities for oxidation of hydrogen

Abstract Hydrogen oxidation rates were measured in a neutral compost soil and an acidic sandy loam at H₂ mixing ratios of 0.01 to 5000 ppmv. The kinetics were biphasic showing two different K _m values for H₂, one at about 10–40 nM dissolved H₂, the other at about 1.2–1.4 μM H₂. The low- K _m activity was less sensitive to chloroform fumigation than the high- K _m activity. If sterile soil was amended with Paracoccus denitrificans or a H₂-oxidizing strain isolated from compost soil, it exhibited only a high- K _m (0.7–0.9 μM) activity. It also failed to utilize H₂ mixing ratios below a threshold of 1.6–3.0 ppmv H₂ (160–300 mPa). A similar result was obtained when fresh soil samples were suspended in water, and H₂ oxidation was determined from the decrease of dissolved H₂. However, H₂ was again utilized to mixing ratios lower than 0.05 ppmv, if the supernatant of the soil suspension or the settled soil particles were dried onto sterile soil or purified quarz sand. Obviously, soils contain two different activities for oxidation of H₂: (1) a high- K _m, high-threshold activity which apparently is due to aerobic H₂-oxidizing bacteria, and (2) a low- K _m, low-threshold activity whose origin is unknown but presumably is due to soil enzymes.     

Acid Sphingomyelinase of Human Brain: Purification to Homogeneity

Abstract: Acid sphingomyelinase (sphingomyelin phosphodiesterase, EC 3.1.4.12) was purified from human brain by extraction with 0.1% Triton X-100, followed by sequential chromatography on Concanavalin A-Sepharose, octyl-Sepharose, hydroxylapatite, DEAE-cellulose, red A-agarose, Sephadex G-200, and DEAE-cellulose with ampholyte elution. Sphingomyelinase activity was purified more than 20,000-fold from the starting homogenate with a 1% yield. Specific activity of up to 800 μmol/h/mg protein could be achieved. Gel electrophoresis with 6% polyacrylamide containing sodium dodecyl sulfate gave a single protein band with a molecular weight of 70,000, in good agreement with the molecular weight previously estimated from sucrose density gradient centrifugation in 0.1% Triton X-100. Triton X-100 could be readily removed from the enzyme by sucrose density gradient centrifugation. The Triton-free enzyme showed the same K _m and pH optimum. Heat stability of the enzyme was reversibly affected by Triton X-100, in that removal of the detergent made the enzyme more heat labile. The K _m of purified enzyme for sphingomyelin was 36 μ M . It was unaffected by sulfhydryl reagents, but was inhibited by dithiothreitol at high concentrations. The preparation was free of all lysosomal hydrolase activities tested, including galactosylceramidase and α-mannosidase, which tended to copurify in our previous procedure. The enzyme was inactive toward sphingosylphosphorylcholine. It was active with bis[ p -nitrophenyll- and bis[4-methylumbelliferyl]phosphate and the chromogenic and fluorogenic sphingomyelin analogues.     

Metabolism of Catecholamines by Catechol-O-Methyltransferase in Cells Expressing Recombinant Catecholamine Transporters

Abstract: To determine if catechol- O -methyltransferase (COMT) metabolizes catecholamines within cell lines used for heterologous expression of plasmalemmal transporters and alters the measured characteristics of ³H-substrate transport, the uptake of monoamine transporter substrates was assessed in three cell lines (C6 glioma, L-M fibroblast, and HEK293 cells) that had been transfected with the recombinant human transporters. Uptake and cellular retention of ³H-catecholamines was increased by up to fourfold by two COMT inhibitors, tropolone and Ro 41-0960, with potencies similar to those for inhibition of COMT activity, whereas the uptake of two transporter substrates that are not substrates for COMT, [³H]serotonin and [³H]MPP⁺, was unaffected. Direct measurement of monoamine substrates by HPLC confirmed that tropolone (1 m M ) increased the retention of the catecholamines dopamine and norepinephrine, but not the retention of serotonin in HEK293 cells. Saturation analysis of the uptake of [³H]dopamine by C6 cells expressing the dopamine transporter demonstrated that tropolone (1 m M ) decreased the apparent K _m of transport from 0.61 µ M to 0.34 µ M without significantly altering the maximal velocity of transport. These data suggest that endogenous COMT activity in mammalian cells may alter neurotransmitter deposition and thus the apparent kinetic characteristics of transport.     

A direct demonstration of "co-respiration" of oxygen and nitrogen oxides by Pseudomonas nautica: some spectral and kinetic properties of the respiratory components

Abstract: Pseudomonas nautica grown anaerobically is capable of simultaneously utilizing oxygen and nitrate or its reduced products (nitrite and nitrous oxide). Evidence for this 'co-respiration' came from kinetic studies on oxygen consumption depending on oxygen concentration and from spectral studies which revealed changes in the cytochromes composition of the electron transport chain under aerobic or anaerobic conditions. A constitutive o -type cytochrome oxidase was detected either aerobically or anaerobically with an apparent K _m for O₂ evaluated at 315 μM. Two oxidases were induced only in anaerobic conditions. One of these two enzymes identified as a cd -type cytochrome oxidase shows a relatively high affinity for oxygen with an apparent K _m value of 25 μM.     

COMPARATIVE STUDIES ON SYNAPTOSOMES: UPTAKE OF [N-Me-3H]CHOLINE BY SYNAPTOSOMES FROM SQUID OPTIC LOBES

Abstract— The uptake of [ N -Me-³H]choline into synaptosomes from squid optic lobes was studied using a Millipore filtration technique. When incubated in an artificial sea water medium at 26°C, but not at 0°C, the synaptosomes rapidly accumulated choline, most of which could be recovered as unchanged free choline. The accumulated choline was readily released by treatment of the synaptosomes with Triton X-100 or exposing them to hypo-osmotic conditions. The influx of choline increased with increasing concentrations of choline and could be resolved into saturable and non-saturable components. Kinetic analysis revealed the presence of two saturable components one of high affinity ( K _m about 2 μ m ) and one of lower affinity ( K _m 25 μ m ). The rate of choline uptake by these synaptosomes was considerably greater than by mammalian brain synaptosomes. Both high and low affinity systems were Na⁺-requiring and inhibited by hemicholinium no. 3, levorphanol and dextrorphan. NaCN, 2,4-dinitrophenol and ouabain also inhibited choline uptake, the high affinity system being particularly sensitive to these agents. It is suggested that the high affinity system is specific for cholinergic terminals.     

STUDIES ON THE MONOAMINE OXIDASE OF MONKEY BRAIN

Abstract— A study of the enzyme monoamine oxidase (MAO) was carried out in the monkey brain. From the monkey brain mitochondrial fraction a lysolecithin-soluble form of the enzyme (MAO_s and an insoluble form (MAO_p) were isolated. The latter required freezing, thawing and sonication for solubilization. Both these forms of MAO had identical electrophoretic mobilities, a pH optimum of 7 and comparable thermal stabilities. The enzyme which could not be solubilized and which remained membrane-bound also gave the same pH optimum of 7 and a similar thermal stability profile. Both MAO_s and MAO_p had comparable K _m values of 2.2 × 10⁻⁵ m and 5.0 ×^105- m respectively when using tyramine as substrate and 7.4 ×⁻⁵ M and 7.7 × 10⁻⁵ m respectively with benzylamine as substrate. The K _m values of the membrane-bound enzyme were 1.0 × 10"⁵m with tyramine as substrate 2.5 × m with benzylarnine as substrate. The MAO inhibitors, tranylcypromine, isocarboxazid and iproniazid inhibited both MAO_s and MAO_p to approximately the same extent. The extent of inhibition of the membrane-bound enzyme however, was relatively different with all three inhibitors. Immunodiffu-sion techniques using anti-MAO_p indicated the immunological identity among MAO_p, MAO_s and the mitochondrial fraction. Substrate specificity and substrate competition experiments as well as the use of the selective inhibitor pargyline indicated the presence of both the 'A' and 'B' type of activity in the MAO isolated from monkey brain.     

Demonstration of 2',3'-Cyclic Nucleotide 3'-Phosphohydrolase in Cultured Human Schwann Cells

Abstract: Schwann cell cultures were established from adult human sural nerve biopsies. 2'3'-Cyclic nucleotide 3'-phosphohydrolase (CNPase) activity was estimated in the homogenates of those cells by a sensitive isotope assay using [³H]2',3'-cyclic AMP as substrate. A high level of CNPase activity was observed in cultured Schwann cells, whereas cultured human muscle and skin fibroblasts contained negligible levels of CNPase activity. CNPase of human Schwann cells followed typical enzyme-substrate kinetics, with an apparent K _m of 1.6 m M for 2',3'-cyclic AMP, and the enzyme was stimulated by detergents such as Triton X-100 and deoxycholate. It was inhibited by p -chloromercuricbenzoate and 2'-AMP. These properties are typical of CNPase isolated from adult brain and spinal cord. CNPase can serve as a new biochemical marker of normal cultured human Schwann cells and can be useful in analyzing the properties of cultured Schwann cells from patients with dysschwannian neuropathies.     

N 5, N10-Methylenetetrahydromethanopterin reductase from Methanosarcina barkeri

N ⁵ N ¹⁰-Methylenetetrahydromethanopterin reductase was purified 13-fold to apparent homogeneity from methanol grown Methanosarcina barkeri . The colourless enzyme was found to be composed of four identical subunits of apparent molecular mass 36 kDa. It catalysed the reduction of methylenetetrahydromethanopterin ( K _m=15 μM) to methyltetrahydromethanopterin with reduced coenzyme F₄₂₀ ( K _m=12 μM) at a specific rate ( V _max) of 2200 μmol min⁻¹· mg protein⁻¹ ( K _cat=1320 s⁻¹). With respect to coenzyme specificity, molecular properties and catalytic mechanism the enzyme was found to be similar to CH₂=H₄MPT reductase of Methanobacterium thermoautotrophicum which phylogenetically is only distantly related to M. barkeri .     

Purification and properties of an NADPH-dependent dihydroxyacetone reductase from Phycomyces spores

Abstract A glycerol:NADP⁺ 2-oxidoreductase was purified to homogeneity from Phycomyces blakesleeanus sporangiospores. The enzyme had an M _r of 34 000–39 000 and consisted of a single polypeptide. It had a pH optimum between 6–6.5 and a K _m of 3.9 mM for dihydroxyacetone. The reverse reaction had a pH optimum of 9.4 and a K _m for glycerol of more than 2 M. The enzyme was completely specific for NADPH ( K _m= 0.01 mM) or NADP⁺ ( K _m= 0.17 mM) and greatly preferred dihydroxyacetone over glyceraldehyde as substrate. Besides glycerol, l -arabitol and mesoerythritol were also oxidized by the enzyme. It was inhibited by ionic strengths in excess of 100 mM and is probably involved in the synthesis of glycerol during early spore germination.     

THE INHIBITION OF PHENYLALANINE AND TYROSINE HYDROXYLASES BY HIGH OXYGEN LEVELS

Abstract— The K _m for oxygen for rat liver phenylalanine hydroxylase depended on the structure of the reduced pterin cofactor. When the synthetic cofactor, 6,7-dimethyltetrahydropterin, was employed, the apparent K _m for oxygen was 20%. When the natural cofactor, tetrahydrobiopterin, was used, the apparent K _m for oxygen was 0.35 %. Substrate inhibition (40 per cent inhibition at 43% oxygen) was observed with the natural cofactor but not with the synthetic cofactor. Oxygen also caused substrate inhibition with bovine adrenal medulla and brain tyrosine hydroxylases. The inhibition was more dramatic in the presence of the natural cofactor than with the synthetic cofactor. Substrate inhibition by oxygen of brain tyrosine hydroxylase may explain the lowered brain levels of norepinephrine and dopamine observed after treatment of animals with hyperbaric oxygen.     

Nutritional flexibility of oligotrophic and copiotrophic Antarctic bacteria with respect to organic substrates

Abstract Alcaligenes eutrophus can accumulate poly-3-hydroxybutyrate (PHB) or polyhydroxyalkanoate (PHA) containing only 3-hydroxybutyrate (HB) and 3-hydroxyvalerate (HV) units. Granule-associated PHB-synthase was active with d (−)-3-hydroxybutyryl-CoA and d (−)-3-hydroxyvaleryl-CoA of the range of d (−)- and l (+)-3-hydroxyacyl-CoA substrates tested (C₄–C₁₀). In carbon-limited cultures, PHB-synthase was predominantly soluble, becoming granule-associated on transition to nitrogen limitation. Granule-associated PHB-synthase increased in activity at least up to pH 10.0 and K _m values of 0.68 mM and 1.63 mM were determined for the C₄ and C₅ substrates, respectively, at pH 8.5. The soluble PHB-synthase, which was unstable, showed equal activity in the range pH 8.0–10.0, had a K _m value for d (−)-3-hydroxybutyryl-CoA of 0.72 mM and an M _r of 160,000. PHB does not measurably turn over under steady-state polymer-accumulating conditions.