The effects on plasma L-arginine levels of combined oral L-citrulline and L-arginine supplementation in healthy males

We investigated the effects of combining 1 g of l-citrulline and 1 g of l-arginine as oral supplementation on plasma l-arginine levels in healthy males. Oral l-citrulline plus l-arginine supplementation more efficiently increased plasma l-arginine levels than 2 g of l-citrulline or l-arginine, suggesting that oral l-citrulline and l-arginine increase plasma l-arginine levels more effectively in humans when combined.     

Fermentative Production of l-Arginine

Most of the bacteria, which were examined for the sensitivity to l-arginine analogs (l-canavanine, l-homoarginine, d-arginine and arginine hydroxamate), were insensitive to the analogs at a concentration of 8 mg/ml. Corynebacterium glutamicum DSS-8 isolated as d-serine-sensitive mutant from an isoleucine auxotroph KY 10150, was found to be sensitive to d-arginine and arginine hydroxamate. Furthermore, DSS-8 produced l-arginine in a cultural medium. l-Arginine analog-resistant mutants were derived from DSS-8 by N-methyl-N′-nitro-N-nitrosoguanidine (NTG) treatment. Most of them were found to produce a large amount of l-arginine. An isoleucine revertant from one of these mutants produced 19.6 mg/ml of l-arginine in the medium containing 15% (as sugar) of molasses.

The mechanism of the sensitivity to l-arginine analogs and that of the production of l-arginine in the d-serine-sensitive mutant, DSS-8, were investigated. DSS-8 seems to be a mutant having increased permeability to d- and l-arginine.     

Relationship between serum arginase I and l-arginine or exhaled nitric oxide in asthma

The relationship between serum arginase I and serum l-arginine or fractional exhaled nitric oxide (FENO) was evaluated cross-sectionally in asthmatic patients. No sex difference was observed in the serum mean levels of arginase I and l-arginine or FENO. Arginase I and FENO were higher in patients 60 or younger years than in those over 60 years. Asthmatic patients were divided into three groups: no steroid therapy, inhalation steroid therapy, and oral steroid therapy. Arginase I, FENO and high-sensitivity-C-reactive protein (hs-CRP) were significantly lower in the inhalation steroid therapy group than in the no steroid therapy group. Correlations were observed between arginase I and FENO, l-arginine, hs-CRP, WBC, and age, and also between FENO and IgE, WBC, and age. A logistic regression analysis revealed the positive association of arginase I with FENO, and the negative association of l-arginine. FENO was positively associated with arginase I and IgE. These results indicated that serum arginase I might influence serum levels of l-arginine and FENO, and that IgE might influence FENO in asthmatic patients.     

Elevated Body Fat in Rats by the Dietary Nitric Oxide Synthase Inhibitor,L-Nω Nitroarginine

The influence of the dietary nitric oxide (NO) synthase inhibitor, L-N^ω nitroarginine (L-NNA) on body fat was examined in rats. In experiment 1, all rats were fed with the same amount of diet with or without 0.02% L-NNA for 8 wk. L-NNA intake caused elevations in serum triglyceride and body fat, and reduction in serum nitrate (a metabolite of nitric oxide). The activity of hepatic carnitine palmitoyltransferase was reduced by L-NNA. In experiment 2, rats were fed for 8 wk with the same amount of diets with or without 0.02% L-NNA supplemented or not with 4% L-arginine. The elevation in body fat, and the reductions in serum nitrate and in the activity of hepatic carnitine palmitoyltransfererase by L-NNA were all suppressed by supplemental L-arginine. The results suggest that lower NO generation elevated not only serum triglyceride, but also body fat by reduced fatty acid oxidation.     

Purification and Properties of l-Arginase from Bacillus subtilis

l-Arginase (l-arginine amidinohydrolase, EC 3.5.3.1) was purified in a crystalline form from cells of Bacillus subtilis KY 3281 with an overall yield of 23.2%. The crystalline enzyme had a specific activity of 858 i.u./mg-protein and was ultracentrifugally homogeneous. It was estimated to have a molecular weight of 115,000±5000 by the method of Yphantis.

The enzyme highly specific for l-arginine showed the maximum activity at pH 10 with Mn²⁺ ion. The Km for l-arginine was 1.35 × 10^?2 m The activity was competitively inhibited by l-lysine, but not by l-ornithine and increased by the addition of Mn²⁺ or Co²⁺ ions. The stable pH and temperature ranges became wider in the presence of Mn²⁺ ion and l-threonine.     

Conversion of the Extracellular Dextransucrase Isoenzymes from Leuconostoc mesenteroides NRRL B-1299

Effect of oxygen tension on l-lysine, l-threonine and l-isoleucine accumulation was investigated. Sufficient supply of oxygen to satisfy the cell’s oxygen demand was essential for the maximum production in each fermentation. The dissolved oxygen level must be controlled at greater than 0.01 atm in every fermentation, and the optimum redox potentials of culture media were above ?170 mV in l-lysine and l-threonine and above ?180 mV in l-isoleucine fermentations. The maximum concentrations of the products were 45.5 mg/ml for l-lysine, 10.3 mg/ml for l-threonine and 15.1 mg/ml for l-isoleucine. The degree of the inhibition due to oxygen limitation was slight in the fermentative production of l-lysine, l-threonine and l-isoleucine, whose biosynthesis is initiated with l-aspartic acid, in contrast to the accumulation of l-proline, l-glutamine and l-arginine, which is biosynthesized by way of l-glutamic acid.     

l-Arginine supplementation improves rats’ antioxidant system and exercise performance

Reactive species have great importance in sports performance, once they can directly regulate energy production, muscular contraction, inflammation, and fatigue. Therefore, the redox control is essential for athletes’ performance. Studies demonstrated that l-arginine has an important role in the synthesis of urea, cell growth and production of nitric oxide, moreover, there are indications that it is also able to induce benefits to muscle antioxidant system through the upregulation of some antioxidant enzymes, and by inhibiting some pathways of reactive species production. Therefore, the aim of this study was to evaluate the effects of l-arginine supplementation on performance and oxidative stress of male rats (trained or not), submitted to a single session of high intensity exercise. Forty male Wistar rats were divided into four groups, control (C), control+l-arginine (C?+?A), trained (T), and trained+l-arginine (T?+?A). The aerobic training was conducted for 8 weeks. Data of maximum speed and time from tests were used as indicators of performance. Variables related to oxidative stress and antioxidant system were also evaluated. Aerobic training was capable to induce enhancements on animals’ exercise performance and on their redox state. Additionally, supplementation improved rats’ physical performance on both groups, control and trained. Different improvements between groups on the antioxidant capacity were observed. Nevertheless, considering the ergogenic effect of l-arginine and the lack of all positive adaptations promoted by the exercise training, untrained animals may be more exposed to oxidative damages after the practice of intense exercises.     

Isolation and Identification of O-Acetyl and 12-Hydroxyradiclonic Acids

An N-acetylglutamate-acetylornithine acetyltransferase-deficient arginine-requiring mutant AA–1, was derived from an l-arginine producer of Corynebacterium glutamicum. It accumulated a large amount (30 mg per ml) of l-glutamic acid and a small amount (1.2 mg per ml) of N^α-acetylornithine, an intermediate of arginine biosynthesis, in the culture medium.

The production of N^α-acetylornithine by AA–1 was not affected by the concentration of l-arginine in the medium, whereas that of l-glutamic acid was inhibited by a high concentration of l-arginine in the medium containing excess biotin.     

Influence of nitric oxide on the activity of cuneate neurons in the rat

Some neurons of main and external cuneate nuclei are immunoreactive for nitric oxide (NO) synthase, suggesting a role for endogenous NO in the early stages of somatosensory processing. We tested this hypothesis by investigating the possibility that NO modulates cuneate discharge. We observed that both spontaneous and N-methyl-D-aspartate-evoked activities of cuneate neurons were decreased by NO precursor L-arginine. The inhibition of NO synthase, by application of N-nitro-L-arginine methyl ester, instead, abolished the depressant effect induced by L-arginine. Our data suggest a NO modulation of cuneate neurons and provide support for a physiologic role not only in increasing the signal-to-noise ratio in the excited cells but also in a form of surround inhibition.     

Elimination,Replacement and Isomerization Reactions by Intact Cells Containing Tyrosine Phenol Lyase

Tyrosine phenol lyase catalyzes a series of α,β-elimination, β-replacement and racemization reactions. These reactions were studied with intact cells of Erwinia herbicola ATCC 21434 containing tyrosine phenol lyase.

Various aromatic amino acids were synthesized from l-serine and phenol, pyrocatechol, resorcinol or pyrogallol by the replacement reaction using the intact cells. l(d)-Tyrosine, 3,4-dihydroxyphenyl-l(d)-alanine (l(d)-dopa), l(d)-serine, l-cysteine, l-cystine and S-methyl-l-cysteine were degraded to pyruvate and ammonia by the elimination reaction. These amino acids could be used as substrate, together with phenol or pyrocatechol, to synthesize l-tyrosine or l-dopa via the replacement reaction by intact cells. l-Serine and d-serine were the best amino acid substrates for the synthesis of l-tyrosine or l-dopa. l-Tyrosine and l-dopa synthesized from d-serine and phenol or pyrocatechol were confirmed to be entirely l-form after isolation and identification of these products. The isomerization of d-tyrosine to l-tyrosine was also catalyzed by intact cells.

Thus, l-tyrosine or l-dopa could be synthesized from dl-serine and phenol or pyrocatechol by intact cells of Erwinia herbicola containing tyrosine phenol lyase.     

Immunofluorescent Localization of Z-Nin in the Z-Disk

Of 14 coryneform and 2 Micrococcus strains tested, Arthrobacter globiformis IFO 12137, A. simplex IFO 12069, and Brevibacterium helvolum IFO 12073 utilized l-arginine as a sole carbon and nitrogen source, and synthesized the enzymes specific for the arginine oxygenase pathway when grown on l-arginine. The first step reaction was stimulated by FAD and aeration, and the enzyme responsible was shown to be arginine 2-monooxygenase (EC 1.13.12.1). High activities of five enzymes, including guanidinobutyramidase and ganidinobutyrase (EC 3.5.3.7), were detected in the extract of l-arginine-grown A. simplex cells. The enzymes in the last two steps, 4-aminobutyrate aminotransferase (EC 2.6.1.19) and succinate-semialdehyde dehydrogenase (EC 1.2.1.16), of B. helvolum were also induced by putrescine. These results indicate that some bacteria belonging to the coryneform group employ the arginine oxygenase pathway as a major route for l-arginine metabolism, l-arginine being degraded to succinate via 4-guanidinobutyramide and 4-guanidinobutyrate. The last part of the pathway may be common to the pathway for putrescine degradation.     

Some Properties of Three Proteolytic Enzymes Excreted by Bacillus cereus Kp 931

The crude enzyme preparation obtained from culture media of Bacillus cereus Kp 931 was fractionated into three active fractions by Sephadex G-100 gel filtration. These three enzymes had pH optima at between 10.5 and 11.0. One of them, the largest molecular weight species, the enzyme I, was purified extensively. The enzyme catalyzes the release of a number of free amino acids from casein. Large amounts of l-alanine and l-glutamic acid and small amounts of l-leucine, l-serine, glycine, l-cysteic acid and l-arginine were released from oxidized insulin B-chain by the action of the purified enzyme I. It is also suggested that the other two enzymes, II and III, belong to so-called bacterial proteninases.     

Free Amino Acid Contents of Plasma and Urine,and Liver Enzyme Activities in Rats Fed High Glycine Diets

The contents of plasma free amino acids, the amounts of urinary excreted amino acids and urea, and the activities of liver serine dehydratase, glutamic-oxalacetic transaminase and glutamic-pyruvic transaminase were determined in weanling rats fed ad libitum a 10% casein diet (control), a 10% casein diet containing 7% glycine and 10% casein diets containing 7% glycine supplemented with 1.4% L-arginine and/or 0.9% L-methionine for 14 days.

The remarkable increase of glycine and the moderate increase of serine in the plasma of animals fed excess glycine diets were observed. The amount of excreted glycine in the urine of animals fed the excess glycine diet supplemented with L-arginine and L-methionine was much greater than that of animals given the excess glycine diet. Urinary excreted urea of rats fed the excess glycine diet was a little greater and that of rats fed the excess glycine diet supplemented with L-arginine and L-methionine was much greater than the control. Liver serine dehydratase activity of animals given the excess glycine diets with or without L-arginine was higher than the control and the highest activity was observed in the liver of animals fed the excess glycine diet containing L-arginine and L-methionine. The activity of liver glutamic-oxalacetic transaminase of rats fed the excess glycine diet containing L-arginine and L-methionine was a little higher than that of rats given the other diets. Liver glutamic-pyruvic transaminase activity was a little higher in animals given the excess glycine diets with or without L-arginine and further higher in animals fed the excess glycine diet containing L-arginine and L-methionine than the control.     

Purification,characterization, and gene cloning of a novel aminoacylase from Burkholderia sp. strain LP5_18B that efficiently catalyzes the synthesis of N-lauroyl-l-amino acids

ABSTRACT

An N-lauroyl-l-phenylalanine-producing bacterium, identified as Burkholderia sp. strain LP5_18B, was isolated from a soil sample. The enzyme was purified from the cell-free extract of the strain and shown to catalyze degradation and synthesis activities toward various N-acyl-amino acids. N-lauroyl-l-phenylalanine and N-lauroyl-l-arginine were obtained with especially high yields (51% and 89%, respectively) from lauric acid and l-phenylalanine or l-arginine by the purified enzyme in an aqueous system. The gene encoding the novel aminoacylase was cloned from Burkholderia sp. strain LP5_18B and expressed in Escherichia coli. The gene contains an open reading frame of 1,323 nucleotides. The deduced protein sequence encoded by the gene has approximately 80% amino acid identity to several hydratase of Burkholderia. The addition of zinc sulfate increased the aminoacylase activity of the recombinant E. coli strain.     

Development of an Enzyme-Linked Immunosorbent Assay System for the Determination of Asymmetric Dimethylarginine Using a Specific Monoclonal Antibody

We produced a monoclonal antibody (mAb) against N ^G,N ^G-dimethyl-L-arginine (asymmetric dimethylarginine: ADMA), an endogenous competitive inhibitor of nitric oxide synthase (NOS), and developed an enzyme-linked immunosorbent assay (ELISA). The competitive ELISA method using the mAb determined 5 nM–100 nM ADMA, and ADMA levels in human plasma and urine were found to be 0.78 μM and 51.3 μmol/g of creatinine respectively.     

Purification,Crystallization and Properties of Tyrosine Phenol Lyase from Erwinia herbicola

Crystalline tyrosine phenol lyase was prepared from the cell extract of Erwinia herbicola grown in a medium supplemented with l-tyrosine. The crystalline enzyme was homogeneous by the criteria of ultracentrifugation and acrylamide gel electrophoresis. The molecular weight was determined to be approximately 259,000. The crystalline enzyme catalyzed the conversion of l-tyrosine into phenol, pyruvate and ammonia, in the presence of added pyridoxal phosphate. The enzyme also catalyzed pyruvate formation from d-tyrosine, S-methyl-l-cysteine, 3, 4-dihydroxyphenyl-l-alanine, l- and d-serine, and l- and d-cysteine, but at lower rates than from l-tyrosine. l-Phenyl-alanine, l-alanine, phenol and pyrocatechol inhibited pyruvate formation from l-tyrosine.

Crystalline tyrosine phenol lyase from Erwinia herbicola is inactive in the absence of added pyridoxal phosphate. Binding of pyridoxal phosphate to the apoenzyme is accompanied by pronounced increase in absorbance at 340 and 425 mμ. The amount of pyridoxal phosphate bound to the apoenzyme was determined by equilibrium dialysis to be 2 moles per mole of enzyme. Addition of the substrate, l-tyrosine, or the competitive inhibitors, l-alanine and l-phenyl-alanine, to the holoenzyme causes appearance of a new absorption peak near 500 mμ which disappears as the substrate is decomposed but remains unchanged in the presence of the inhibitor.     

Production of l-Threonine by Analog-resistant Mutants

Mutants resistant to α-amino-β-hydroxyvaleri0c acid (AHV) were derived from various bacteria which belong to Corynebacterium, Brevibacterium, Arthrobacter, Microbacterium, or Bacillus by mutational treatment with N-methyl-N′-nitro-N-nitrosoguanidine(NTG), and screened for their ability to produce l-threonine. A number of l-threonine producers were obtained from each group of bacteria. Among them, the mutants derived from C. glutamicum KY9159(Met^?) were further mutagenized with NTG to derive thialysine(S-Lys)-resistant mutants. An AHV-resistant mutant, KY10484 was proved to be much more sensitive to the growth inhibition by thialysine than the parent strain, KY9159. From KY10484, a number of AHV- and thialysine-resistant mutants were derived. Approximately a half of these mutants were found to produce more l-threonine than KY10484. Among these mutants, KY10440 (Met^?, AHV^R, s-Lys^R) was used to investigate the cultural conditions for l-threonine production. The growth of KY10440 decreased largely with addition of l-homoserine, a threonine precursor. l-Asparagine, l-cystine, l-glutamine or l-arginine partially reversed the inhibitory effect of l-homoserine. Addition of these amino acids at low level led to increase l-threonine production. The amount of l-threonine accumulation reached to a level of 14mg/ml with a medium containing 10% glucose and to a level of 10 mg/ml with a medium containing 5% molasses (as glucose).

Another AHV- and thialysine-resistant mutant, KY10251 which was also derived from KY9159 was found to produce both 9 mg/ml of l-threonine and 5.5 mg/ml of l-lysine in a culture broth.     

Fabrication of nanofiber coated with l-arginine via electrospinning technique: a novel nanomatrix to counter oxidative stress under crosstalk of co-cultured fibroblasts and satellite cells

The objective of this study was to synthesize and characterize novel polyurethane (PU)-nanofiber coated with l-arginine by electrospinning technique. This study determined whether l-arginine conjugated with PU-nanofiber could stimulate cell proliferation and prevent H₂O₂-induced cell death in satellite cells co-cultured with fibroblasts isolated from Hanwoo (Korean native cattle). Our results showed that l-arginine conjugated with PU nanofiber could reduce cytotoxicity of co-cultured satellite cells. Protein expression levels of bcl-2 were significantly upregulated whereas those of caspase-3 and caspase-7 were significantly downregulated in co-culture of satellite cells compared to those of monoculture cells after treatment with PU-nanofiber coated with l-arginine and which confirmed by Confocal microscope. These results suggest that co-culture of satellite cells with fibroblasts might be able to counter oxidative stress through translocation/penetration of antioxidant, collagen, and molecules secreted to satellite cells. Therefore, this nanofiber might be useful as a wound dressing in animals to counter oxidative stresses.     

Oxidative stress, nitric oxide, endothelial dysfunction and tinnitus

To assess whether pathogenic endothelial dysfunction is involved in acute idiopathic tinnitus we enrolled 44 patients and 25 healthy volunteers. In blood from the internal jugular vein and brachial vein we determined malonaldehyde, 4-hydroxynonenal, myeloperoxidase, glutathione peroxidase, nitric oxide, L-arginine and L-ornitine, thrombomodulin (TM) and von Willebrand factor (vWF) activity during tinnitus and asymptomatic period. Higher plasma concentrations of oxidative markers and L-arginine, and lower nitric oxide and L-ornitine levels were observed in jugular blood of patients with tinnitus, there being a significant difference between brachial and jugular veins. TM and vWF activity were significantly higher in patients' jugular blood than in brachial blood. Our results suggest oxidant, TM, vWF activity production are increased and nitric oxide production reduced in brain circulation reflux blood of patients with acute tinnitus. These conditions are able to cause a general cerebro-vascular endothelial dysfunction, which in turn induce a dysfunction of microcirculation in the inner ear.