Functional characterization of D-galacturonic acid reductase, a key enzyme of the ascorbate biosynthesis pathway, from Euglena gracilis

D-Galacturonic acid reductase, a key enzyme in ascorbate biosynthesis, was purified to homogeneity from Euglena gracilis. The enzyme was a monomer with a molecular mass of 38-39 kDa, as judged by SDS-PAGE and gel filtration. Apparently it utilized NADPH with a Km value of 62.5+/-4.5 microM and uronic acids, such as D-galacturonic acid (Km=3.79+/-0.5 mM) and D-glucuronic acid (Km=4.67+/-0.6 mM). It failed to catalyze the reverse reaction with L-galactonic acid and NADP(+). The optimal pH for the reduction of D-galacturonic acid was 7.2. The enzyme was activated 45.6% by 0.1 mM H(2)O(2), suggesting that enzyme activity is regulated by cellular redox status. No feedback regulation of the enzyme activity by L-galactono-1,4-lactone or ascorbate was observed. N-terminal amino acid sequence analysis revealed that the enzyme is closely related to the malate dehydrogenase families.     

Amino acid composition of maize silage produced in the United Kingdom

The amino acid composition of the silage dry matter, silage nitrogen (g/16 gN) and the molar composition of the total measured amino acids (mM/100 mM) of five maize silages was measured and compared with results from the U.S.A.As the dry matter content of the silages increased, the total amino acid content decreased but was generally higher than values reported from America. As the grain content of the silages increased there was a decrease in lysine content which was reflected in an increased concentration of glutamic acid and proline. The lysine content of U.K. silages was higher than those from the U.S.A.     

Amino acid pools in developing Chlamydomonas reinhardtii: vegetative cells, gametes, and mature zygotes.

Free amino acid pools were examined for cultures of vegetative cells, gametes, and mature zygotes of the unicellular green alga Chlamydomonas reinhardtii (Dangeard). The total pool of amino acids found in premature gametes of strains 137c+ (10.0 pmol-micrograms protein-1) and 137c- (10.8 pmol.micrograms protein-1) decreased to levels about half that seen in vegetative 137c- cells (19.8 pmol.micrograms protein-1). Following light activation, amino acid pools in these gametes increased to 18.7 pmol.micrograms protein-1 in 137c+ cells and 20.0 pmol.micrograms protein-1 in 137c- cells. With the exception of cystine, individual amino acid pools in these cells had increased once more to levels similar to those seen in vegetative cells grown in liquid medium. Levels of cystine remained one to two orders of magnitude lower than that seen in vegetative cells. Mature 137c+ and 137c- gametes mixed in solutions of either 2 mM cystine or 2 mM cysteine (half-cystine) suffered a 52-64% reduction, respectively, in the number of vis-à-vis conjugative pairs formed. This suggests that pools of endogenous cystine may play a role in the onset of mating. In zygotes levels of all amino acid pools, except histidine, were depressed; levels of cystine, valine, and phenylalanine were nondetectable in these cells.     

Kainate-induced stimulation of amino acid release from primary astroglial cultures of the rat hippocampus

The effects of the excitatory amino acid analogs kainate (KA) and N-methyl- -aspartate (NMDA) on release of amino acids from astrocytes in primary culture were investigated. Under basal conditions, glutamine was present in the medium at 15 μM. The levels of serine and taurine were 1.5 and 2.0 μM, respectively, while the concentration of other amino acids was below 1 μM. At 10 μM, KA did not affect amino acid release, whereas 100 μM KA enhanced glutamine release by 34% and taurine release by 85%. At 1 mM, KA stimulated the release of all amino acids measured. However, while most amino acids increased by 50–150%, glutamate and aspartate were elevated by more than 3000%. The effect of KA was greatly reduced by 1 mM kynurenate, an excitatory amino acid receptor antagonist. 1 mM NMDA did not stimulate amino acid release from the cultures. The results indicate that astrocytes are endowed with KA-receptive sites, but they do not seem to possess NMDA receptors.     

Insulin-like growth factor-I stimulates amino acid transport in a glutamine-deprived human neuroblastoma cell line

It is still unknown how insulin-like growth factor-I (IGF-I) regulates cancer cell growth in the condition of the limited availability of key nutrients, such as glutamine. We investigated the effects of IGF-I on cell growth and amino acid transport in a glutamine-deprived human neuroblastoma cell line, SK-N-SH. Cell growth was measured, and ³H-labeled amino acid transport was assayed after treatment with or without IGF-I (50 ng/ml) in 2 mM (control) and 100 μM glutamine concentrations. Cell growth rates were dependent on glutamine concentrations. IGF-I stimulated cell growth in both 2 mM and 100 μM glutamine. IGF-I stimulated glutamine transport in 100 μM glutamine with the mechanism of increasing carrier V_max, but had no effect in 2 mM glutamine. IGF-I also stimulated leucine, glutamate and 2-(methylamino)isobutyric acid transport in 100 μM glutamine. There were significant increases in [³H]thymidine and [³H]leucine incorporation in IGF-I-treated cells in both 2 mM and 100 μM glutamine. These data suggest that IGF-I stimulates cell growth by increasing amino acid transport in the condition of low glutamine levels in a human neuroblastoma cell line. This mechanism may allow to maintain cell growth even in nutrient-deprived tumor tissues.     

The influence of glucose, other monosaccharides, and ascorbic acid on tyrosine hydroxylase activity of rat striatal synaptosomes.

We investigated the action of glucose, other monosaccharides, and ascorbic acid on the activity of tyrosine hydroxylase in rat striatal synaptosomes. We found that glucose at 0.2 mM maximally activated enzyme activity by as much as 100 percent and caused half-maximal activation at 0.036 mM. Mannose, fructose and galactose also stimulated tyrosine hydroxylase activity, half-maximal activation occurring at 0.036, 8, and 50 mM, respectively; arabinose was inactive up to 100 mM. Ascorbic acid did not stimulate enzyme activity at 0.1 and 1 mM, and at 10 mM was inhibitory.The activating effect of glucose on tyrosine hydroxylase activity was blocked by 2-deoxyglucose and by glucosamine. We interpret the action of glucose to be dependent upon its metabolism and to be indirect, probably due to the maintenance of the cofactor in the reduced form in the synaptosomes.     

Two omega-amino acid transaminases from Bacillus cereus.

Bacillus cereus strain K-22 produced two distinct omega-amino acid transaminases, one catalyzing the transamination between beta-alanine and pyruvic acid and the other that between gamma-aminobutyric acid and alpha-ketoglutaric aic. The two enzymes were partially purified and separated from each other by various chromatographies. beta-Alanine:pyruvic acid transaminase and gamma-aminobutyric acid:alpha-ketoglutaric acid transaminase were induced by the addition of beta-alanine and gamma-aminobutyric acid, respectively, to the growth medium. beta-Alanine transaminase showed an optimum pH of 10.0 and optimum temperature of 35 degrees C, and its Km values for beta-alanine and pyruvic acid were both 1.1 mM. gamma-Aminobutyric acid, epsilon-aminocaproic acid, 2-aminoethylphosphonic acid, and propylamine showed about 30-40% of the activity of beta-alanine as amino donors, and oxalacetic acid was as good an amino acceptor as pyruvic acid. The optimum pH and temperature of gamma-aminobutyric acid transaminase were 9.0 and 50 degrees C, respectively, and its Km value for gamma-aminobutyric acid was 2.8 mM, while that for alpha-ketoglutaric acid was 2.3 mM. gamma-Aminobutyric acid and delta-aminovaleric acid were good amino donors but other omega-amino acids were virtually inactive with gamma-aminobutyric acid transaminase; alpha-ketoglutaric acid, and to a lesser extent glyoxylic acid, were active amino acceptors. Sulfhydryl reagents specifically activated gamma-aminobutyric acid transaminase.     

Substrate-dependent regulation of intracellular amino acid concentrations in cultured bovine aortic endothelial cells

Amino acid deprivation induces adaptive changes in amino acid transport and the intracellular amino acid pool in cultured cells. In this study intracellular amino acid levels were determined in cultured bovine aortic endothelial cells (EC) deprived of L-arginine or total amino acids for 1, 3, 6 and 24 h. Amino acid concentrations were analyzed by reverse phase HPLC after precolumn derivatisation. Under normal culture conditions levels of L-arginine L-citrulline, total essential and non-essential amino acids were 840 +/- 90 microM, 150 +/- 40 microM, 11.4 +/- 0.9 mM and 53.3 +/- 3.4 mM (n = 9), respectively. In EC deprived of L-arginine or all amino acids for 24 h L-arginine and L-citrulline levels were 200 microM and 50 microM, and 670 microM and 100 microM Deprivation of L-arginine or total amino acids induced rapid (1 h) decreases (30 - 50%) in the levels of other cationic (lysine, ornithine) and essential branched-chain (valine, isoleucine, leucine) and aromatic (phenylalanine, tryptophan) amino acids. L-glutamine was reduced markedly in EC deprived of total amino acids for 1 h - 6 h but actually increased 3-fold in EC deprived of L-arginine for 6 h or 24 h. Arginine deprivation resulted in a rapid decrease in the total intracellular amino acid pool, however concentrations were restored after 24 h. Increased amino acid transport and/or reduced protein synthesis may account for the restoration of amino acid levels in EC deprived of L-arginine. The sustained reduction in the free amino acid pool of EC deprived of all amino acids may reflect utilization of intracellular amino acids for protein synthesis.     

Effect of ouabain on amino acid uptake by mouse ascites-tumour cells in the presence of nigericin.

Mouse ascites-tumour cells oxidizing lactate, in a modified Ringer solution, concentrated 2-aminoisobutyrate, L-methionine or 2-(methylamino)isobutyrate about 20-fold from a 0.4 mM solution in the presence of 2-3 micrograms of nigericin/mg cellular dry wt. The ionophore increased cellular [Na+] to almost 100 mM when extracellular [Na+] was about 45 mM. Either valinomycin or the two mitochondrial inhibitors oligomycin and antimycin acting together each markedly lowered the extent to which the tumour cells concentrated amino acid, from the above factor of about 20 to roughly 2-fold. Ouabain (1 mM) had a similar effect, and further raised cellular [Na+]. The sodium pump appeared to be closely involved in amino acid uptake under these conditions.     

The utilization of alanine, glutamic acid, and serine as amino acid substrates for glycine N-acyltransferase

The conjugation of benzoyl-CoA with the aliphatic and acidic amino acids by glycine N-acyltransferase, as well as the amides of the latter group, was investigated. Bovine and human liver benzoyl-amino acid conjugation were investigated using electrospray ionization tandem mass spectrometry (ESI-MS-MS). Bovine glycine N-acyltransferase catalyzed conjugation of benzoyl-CoA with Gly (Km(Gly) = 6.2 mM), Asn (Km(Asn) = 129 mM), Gln (Km(Gln) = 353 mM), Ala (Km(Ala) = 1573 mM), Glu (Km(Glu) = 1148 mM) as well as Ser in a sequential mechanism. In the case of the human form, conjugation with Gly (Km(Gly) = 6.4 mM), Ala (Km(Ala) = 997 mM), and Glu was detected. The presence of these alternative conjugates did not inhibit bovine glycine N-acyltransferase activity significantly. Considering the relatively low levels at which these conjugates are formed, it is unlikely that they will have a significant contribution to acyl-amino acid conjugation under normal conditions in vivo. However, their cumulative contribution to acyl-amino acid conjugation under metabolic disease states may prove to have a useful contribution to detoxification of elevated acyl-CoAs.     

Amino acid and protein changes in the haemolymph of developing fourth instar Chironomus tentans

The concentration of free amino acids, total soluble protein, and haemoglobin in the haemolymph of fourth instar Chironomus tentans was investigated.The concentration of the free amino acid pool increases between the early (15.7 mM/l) and mid-(33.9 mM/l) fourth larval stages followed by a decline during the late (16.9 mM/l) fourth larval period. Alanine, serine, and the amides of aspartic acid and glutamic acid are the predominant free amino acids at all stages. Physiological fluid analysis of late fourth instar haemolymph detected 32 ninhydrin positive components including 18 common amino acids plus homoarginine, ornithine, citrulline, β-alanine, α-aminoadipic acid, α-aminoisobutyric acid, and sarcosine.The concentration of total soluble protein steadily increases during fourth instar larval development to a maximum of $\text{9.3}\text{g}\text{100}\text{ml}$ followed by a decline during the pharate pupal period. A similar pattern of variation occurs in haemoglobin content which comprises from 51 to 66% of Chironomus tentans haemolymph protein.The mM percentage of individual amino acids of total haemolymph protein varies little during the fourth instar. At all stages alanine and aspartic acid are the predominant amino acids.     

Transport characteristics of system A in the rat exocrine pancreatic epithelium analyzed using the specific non-metabolized amino acid analogue alpha-methylaminoisobutyric acid

The selectivity and kinetics of system A amino acid transport in the rat exocrine pancreatic epithelium were characterized using the specific analogue alpha-methylaminoisobutyric acid. Unidirectional influx of alpha-methylaminoisobutyric acid was measured in isolated perfused pancreata by rapid dual tracer dilution. In cross-inhibition experiments DL-methylalanine, L-serine, L-cysteine, glycine, L-phenylalanine and L-glutamine were effective inhibitors of influx, whereas L-glutamate and L-lysine were less effective. In the presence of sodium alpha-methylaminoisobutyric acid influx was saturable with an apparent Kt = 1.7 +/- 0.2 mM and Vmax = 0.49 +/- 0.03 mumol/min per g (mean +/- S.E., n = 6). Influx of alpha-methylaminoisobutyric acid at 50 microM and 100 microM concentrations was significantly inhibited as the perfusate sodium concentration was gradually decreased from 156 mM to 26 mM by isoosmolar choline replacement. Estimated Kt values for sodium at these two methylaminoisobutyric acid concentrations approximated 200 mM. System A activity in the basolateral membrane of the exocrine pancreatic epithelium exhibits a high transport affinity, a wide tolerance for different amino acids and a dependency upon the extracellular sodium concentration.     

Determination of 3-deoxy-D-manno-octulosonic acid (KDO), N-acetylneuraminic acid, and their derivatives by ion-exchange liquid chromatography

A liquid chromatography (1.6 MPa) system for the analysis of 3-deoxy-D-manno-2-octulosonic acid (KDO), N-acetylneuraminic acid (Neu5Ac), methyl alpha- and beta-glycosides of Neu5Ac and KDO, alpha-heptosyl-(1----5)-KDO, various sialyllactoses, alpha-KDO-(2----4)-KDO, alpha-KDO-(2----4)-KDO methyl alpha-glycoside, beta-KDO-(2----4)-KDO methyl beta-glycoside, D-glucuronic acid, D-glucurono-3,6-lactone, and D-galacturonic acid has been developed. Separation was achieved within 10 and 30 min by the use of a small column filled with a strongly basic, anion-exchange resin, Aminex A-29, and 0.75 or 10mM sodium sulfate solutions as mobile phases. This method allowed the determination of KDO and sialic acids in amounts of 100 ng (0.5 nmol) and 200 pg (0.6 pmol), respectively.     

Binding affinity of N-glycans for aromatic amino acid residues: implications for novel interactions between N-glycans and proteins.

This study advances direct evidence of the binding affinity of N-glycans for aromatic amino acid residues. The intrinsic fluorescence intensities of bovine pancreatic RNase A, bovine alpha-lactalbumin, and aromatic amino acids were markedly depressed in solutions (1 mM or so) of free N-glycans of both the high-mannose and complex types. In addition, free N-glycans inhibited the chemical modifications of the solvent-exposed tyrosine and tryptophan residues of these proteins, confirming the affinity of N-glycans for aromatic amino acid residues. The results are discussed in connection with the roles of N-glycans in novel interactions between N-glycans and proteins.     

Enzymatic properties and nucleotide and amino acid sequences of a thermostable beta-agarase from the novel marine isolate, JAMB-A94

A gene, agaA, for a novel beta-agarase from the marine bacterium JAMB-A94 was cloned and sequenced. The 16S rDNA of the isolate had the closest match, of only 94.8% homology, with that from Microbulbifer salipaludis JCM11542(T). The agaA gene encoded a protein with a calculated molecular mass of 48,203 Da. The deduced amino acid sequence showed 37-66% identity to those of known agarases in glycoside hydrolase family 16. A carbohydrate-binding module-like amino acid sequence was found in the C-terminal region. The recombinant enzyme was hyper-produced extracellularly when Bacillus subtilis was used as a host. The purified enzyme was an endo-type beta-agarase, yielding neoagarotetraose as the main final product. It was very thermostable up to 60 degrees C. The optimal pH and temperature for activity were around 7.0 and 55 degrees C respectively. The activity was not inhibited by EDTA (up to 100 mM) and sodium dodecyl sulfate (up to 30 mM).     

Volume regulation in vitro of muscle fibres of the crab,Hemigrapsus edwardsi

Summary Isolated flexor muscles of the shore crab,Hemigrapsus edwardsi were maintained in saline solutions for periods of 2–12 h.In hypotonic saline solutions containing less than 400 mM sodium chloride, the fibres rapidly died. In 400 mM sodium chloride saline the fibres showed partial volume readjustment associated with reduction in the amount of intracellular ninhydrin-positive substances (NPS).In saline (460 mM sodium chloride) containing ouabain (2–5 mM) the fibres lost water and potassium, gained sodium and chloride, but the amount of NPS was not significantly changed.In hypertonic saline (550 mM sodium chloride) the fibres showed a partial recovery of volume during the 8 h experimental period. Associated with this was a rise in the amount of intracellular NPS.It was concluded that the ability of the muscle fibres ofHemigrapsus edwardsi to respond to a hyperosmotic challenge in an amino acid free medium, by an increase in intracellular amino acid levels, must represent a synthesis of these compounds from an intracellular source. This may be an adaptive feature of osmotic readjustment in this rather permeable crab.     

Purification and characterization of a purple acid phosphatase from rat spleen

An acid phosphatase species which is activated by Fe2+ was purified 3,700-fold from rat spleen by chromatography on columns containing Blue-Sepharose, concanavalin A-Sepharose, Sephadex G-100, and CM-Sephadex. The enzyme hydrolyzed aryl phosphates, nucleoside di- and triphosphates, phosphoproteins, and thiamine pyrophosphate with Km values of 10(-4) to 10(-3) M at an optimal pH of 5.0-5.8. Co-purification of the acid phosphatase and acid phosphoprotein phosphatase indicated that they were identical. The purified enzyme was glycoprotein in nature, showing four heterogeneous forms on acid polyacrylamide gel electrophoresis (pI values, 7.8, 8.0, 8.3, and 8.5), but it gave a molecular weight of 33,000 on sodium dodecyl sulfate-gel electrophoresis and gel permeation chromatography. The enzyme had a purple color (lambda max 545 nm) and contained 2 iron atoms per enzyme molecule. Among reductants, ascorbic acid and Fe2+ were the best activators, although their combined effect was not additive. Fe2+ and ascorbic acid both changed the purple enzyme into the same active form (lambda max 515 nm), giving almost the same kinetic constants for substrates and for inhibitors such as molybdate, phosphate and fluoride. However, low concentrations of Fe2+, from 0.01 mM to 1.0 mM, immediately and reversibly activated the enzyme, whereas high concentrations of ascorbic acid over 1 mM were required for maximal activation, which was slow and irreversible.     

Regulation of branched-chain, and sulfur-containing amino acid metabolism by glutathione during ultradian metabolic oscillation of Saccharomyces cerevisiae

Autonomous ultradian metabolic oscillation (T approximately or =50 min) was detected in an aerobic chemostat culture of Saccharomyces cerevisiae. A pulse injection of GSH (a reduced form of glutathione) into the culture induced a perturbation in metabolic oscillation, with respiratory inhibition caused by H2S burst production. As the production of H2S in the culture was controlled by different amino acids, we attempted to characterize the effects of GSH on amino acid metabolism, particularly with regard to branched chain and sulfur-containing amino acids. During stable metabolic oscillation, concentrations of intracellular glutamate, aspartate, threonine, valine, leucine, isoleucine, and cysteine were observed to oscillate with the same periods of dissolved O2 oscillation, although the oscillation amplitudes and maximal phases were shown to differ. The methionine concentration was stably maintained at 0.05 mM. When GSH (100 microM) was injected into the culture, cellular levels of branched chain amino acids increased dramatically with continuous H2S production, whereas the cysteine and methionine concentrations were noticeably reduced. These results indicate that GSH-dependent perturbation occurs as the result of the promotion of branched chain amino acid synthesis and an attenuation of cysteine and methionine synthesis, both of which activate the generation of H2S. In a low sulfate medium containing 2.5 mM sulfate, the GSH injections did not result in perturbations of dissolved O2, NAD(P)H redox oscillations without burst H2 production. This suggests that GSH-dependent perturbation is intimately linked with the metabolism of branched-chain amino acids and H2 generation, rather than with direct GSH-GSSG redox control.     

The role of Na,K-ATPase alpha subunit serine 775 and glutamate 779 in determining the extracellular K+ and membrane potential-dependent properties of the Na,K-pump

The roles of Ser775 and Glu779, two amino acids in the putative fifth transmembrane segment of the Na,K-ATPase alpha subunit, in determining the voltage and extracellular K+ (K+(o)) dependence of enzyme-mediated ion transport, were examined in this study. HeLa cells expressing the alpha1 subunit of sheep Na,K-ATPase were voltage clamped via patch electrodes containing solutions with 115 mM Na+ (37 degrees C). Na,K-pump current produced by the ouabain-resistant control enzyme (RD), containing amino acid substitutions Gln111Arg and Asn122Asp, displayed a membrane potential and K+(o) dependence similar to wild-type Na,K-ATPase during superfusion with 0 and 148 mM Na+-containing salt solutions. Additional substitution of alanine at Ser775 or Glu779 produced 155- and 15-fold increases, respectively, in the K+(o) concentration that half-maximally activated Na,K-pump current at 0 mV in extracellular Na+-free solutions. However, the voltage dependence of Na,K-pump current was unchanged in RD and alanine-substituted enzymes. Thus, large changes in apparent K+(o) affinity could be produced by mutations in the fifth transmembrane segment of the Na,K-ATPase with little effect on voltage-dependent properties of K+ transport. One interpretation of these results is that protein structures responsible for the kinetics of K+(o) binding and/or occlusion may be distinct, at least in part, from those that are responsible for the voltage dependence of K+(o) binding to the Na,K-ATPase.     

Effects of cyclic AMP and dibutyryl cyclic AMP on amino acid transport in the isolated rat ovary.

Prepubertal rat ovaries were incubated in medium containing the non-utilizable amino acids alpha-aminoisobutyric acid (AIB-14C) or 1-aminocyclo-pentane-carboxylic acid (cycloleucine-14C). The rate of uptake of the two amino acids was studied in the isolated ovaries after different incubation periods. Addition of 5mM cyclic AMP (cAMP) caused a slight stimulation of the AIB-transport but in higher concentrations (10-25 mM) an inhibition was noted. With dibutyrl cyclic AMP (dbcAMP) a dose-dependent increase was seen with 0.5-5 mM concentrations with no further effect of higher concentrations. Time course studies were performed with both AIB and cycloleucine in presence of 10 mM dbcAMP and increased uptake values were noted at each time studied (30-240 min). The phosphodiesterase inhibitor aminophyline in lower concentrations did not influence AIB-transport but 5-10 mM caused increased uptake values in the ovaries. The stimulatory action of dbcAMP on amino acid transport was augmented by a low concentration of aminophylline (0.5 mM). Experiments were in addition carried out in the presence of puromycin and under these circumstances it was still possible to enhance amino acid transport by addition of dbcAMP. The results are discussed in relation to earlier reported effects of gonadotropins on ovarian amino acid transport.