The mechanism of infection of plant protoplasts by viruses

Summary The process of virus infection of protoplasts isolated from tobacco leaves has been examined by means of electron microscopy. Immediately after inoculation, virus particles appear at two types of site: trapped in complex surface lesions of the plasmalemma, or in peripheral cytoplasmic vesicles. The complex lesions are only visible after treatment of the protoplasts with inocula containing poly-l-ornithine. With infection by tobacco mosaic virus and cowpea chlorotic mottle virus, which require poly-l-ornithine, the majority of virus particles occur at lesion sites. Pea enation mosaic virus, which does not require poly-l-ornithine for infection to become established, is found predominantly and in high numbers in peripheral vesicles. The behaviour of these three viruses is discussed in terms of a probable mechanism for infection of the protoplasts.     

Calcium ions and polyamines activate the plasma membrane-located 1,3-β-glucan synthase

Sucrose-density-gradient centrifugation and partitioning in a polyethylene glycol/dextran two-phase system were used to isolate plasmamembrane vesicles from microsomal preparations of soybean cell suspension cultures. Both methods resulted in the enrichment of the activity of a 1,3--glucan synthase which forms a polymer consisting of more than 99% of 1,3-linked glucose (callose). Digitonin increases the 1,3--glucan synthase activity in the various membrane fractions to a different degree, supporting the suggestion that this enzyme is vectorially arranged in the plasma membrane. The enzyme is greatly activated either by poly-l-ornithine or synergistically by Ca²⁺ and spermine, indicating that the same enzyme is affected and exhibits the regulatory properties necessary for callose synthesis.Abbreviations GSI glucan synthase I - 1,3--GS 1,3--glucan synthase (EC 2.4.1.34) - IDPase inosine 5-diphosphatase - poly-l-Orn poly-l-ornithine - PEG polyethyleneglycol - SGT sterol-glucosyl-transferase - UDPG uridine 5-diphosphoglucose Dedicated to W. Nultsch on the occasion of his 60th birthday     

Stabilization of cortical microtubules by the cell wall in cultured tobacco cells

Cortical microtubules (MTs) in protoplasts prepared from tobacco (Nicotiana tabacum L.) BY-2 cells were found to be sensitive to cold. However, as the protoplasts regenerated cell walls they became resistant to cold, indicating that the cell wall stabilizes cortical MTs against the effects of cold. Since poly-l-lysine was found to stabilize MTs in protoplasts, we examined extensin, an important polycationic component of the cell wall, and found it also to be effective in stabilizing the MTs of protoplasts. Both extensin isolated from culture filtrates of tobacco BY-2 cells and extensin isolated in a similar way from cultures of tobacco XD-6S cells rendered the cortical MTs in protoplasts resistant to cold. Extensin at 0.1 mg·ml⁻¹ was as effective as the cell wall in this respect. It is probable that extensin in the cell wall plays an important role in stabilizing cortical MTs in tobacco BY-2 cells.     

Direct production of l-ornithine from casein by commercial digestive enzymes and in situ activated arginase

There is a great demand for l-ornithine, which is used as a dietary supplement, and in the pharmaceutical industry. In the present study, when milk casein was hydrolyzed at 37 °C by using commercial digestive enzymes, namely, Pancreatin F and Protease A, a significant accumulation of l-ornithine in the hydrolysate and the simultaneous disappearance of l-arginine was noted. In a radiometric assay, transient but distinct arginase activity, which was sufficiently high for l-ornithine production, was detected in the hydrolysate for a certain period during casein hydrolysis. On the basis of the results of the enzymatic analyses, arginase was thought to be proteolytically generated from an inactive precursor, which may generally be contained in Pancreatin F, and ultimately degraded by further proteolysis. This conversion process using the above-mentioned digestive enzymes is useful for the production of l-ornithine directly from protein sources that are abundant in nature.     

Inhibitors of N α-acetyl-l-ornithine deacetylase: synthesis, characterization and analysis of their inhibitory potency

A series of N ^α-acyl (alkyl)- and N ^α-alkoxycarbonyl-derivatives of l- and d-ornithine were prepared, characterized, and analyzed for their potency toward the bacterial enzyme N ^α-acetyl-l-ornithine deacetylase (ArgE). ArgE catalyzes the conversion of N ^α-acetyl-l-ornithine to l-ornithine in the fifth step of the biosynthetic pathway for arginine, a necessary step for bacterial growth. Most of the compounds tested provided IC₅₀ values in the μM range toward ArgE, indicating that they are moderately strong inhibitors. N ^α-chloroacetyl-l-ornithine (1g) was the best inhibitor tested toward ArgE providing an IC₅₀ value of 85 μM while N ^α-trifluoroacetyl-l-ornithine (1f), N ^α-ethoxycarbonyl-l-ornithine (2b), and N ^α-acetyl-d-ornithine (1a) weakly inhibited ArgE activity providing IC₅₀ values between 200 and 410 μM. Weak inhibitory potency toward Bacillus subtilis-168 for N ^α-acetyl-d-ornithine (1a) and N ^α-fluoro- (1f), N ^α-chloro- (1g), N ^α-dichloro- (1h), and N ^α-trichloroacetyl-ornithine (1i) was also observed. These data correlate well with the IC₅₀ values determined for ArgE, suggesting that these compounds might be capable of getting across the cell membrane and that ArgE is likely the bacterial enzymatic target.     

<Emphasis Type="SmallCaps">l</Emphasis>-Proline nutrition and catabolism in <Emphasis Type="Italic">Staphylococcus saprophyticus</Emphasis>

Staphylococcus saprophyticus strains ATCC 15305, ATCC 35552, and ATCC 49907 were found to require l-proline but not l-arginine for growth in a defined culture medium. All three strains could utilize l-ornithine as a proline source and contained l-ornithine aminotransferase and Δ¹-pyrroline-5-carboxylate reductase activities; strains ATCC 35552 and ATCC 49907 could use l-arginine as a proline source and had l-arginase activity. The proline requirement also could be met by l-prolinamide, l-proline methyl ester, and the dipeptides l-alanyl-l-proline and l-leucyl-l-proline. The bacteria exhibited l-proline degradative activity as measured by the formation of Δ¹-pyrroline-5-carboxylate. The specific activity of proline degradation was not affected by addition of l-proline or NaCl but was highest in strain ATCC 49907 after growth in Mueller–Hinton broth. A membrane fraction from this strain had l-proline dehydrogenase activity as detected both by reaction of Δ¹-pyrroline-5-carboxylate with 2-aminobenzaldehyde (0.79 nmol min⁻¹ mg⁻¹) and by the proline-dependent reduction of p-iodonitrotetrazolium (20.1 nmol min⁻¹ mg⁻¹). A soluble fraction from this strain had Δ¹-pyrroline-5-carboxylate dehydrogenase activity (88.8 nmol min⁻¹ mg⁻¹) as determined by the NAD⁺-dependent oxidation of dl-Δ¹-pyrroline-5-carboxylate. Addition of l-proline to several culture media did not increase the growth rate or final yield of bacteria but did stimulate growth during osmotic stress. When grown with l-ornithine as the proline source, S. saprophyticus was most susceptible to the proline analogues L-azetidine-2-carboylate, 3,4-dehydro-dl-proline, dl-thiazolidine-2-carboxylate, and l-thiazolidine-4-carboxylate. These results indicate that proline uptake and metabolism may be a potential target of antimicrobial therapy for this organism.     

Identification of a suppressor gene for the arginine-auxotrophic <Emphasis Type="Italic">argJ</Emphasis> mutation in <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis>

We recently proposed a metabolic engineering strategy for l-ornithine production based on the hypothesis that an increased intracellular supply of N-acetylglutamate may further enhance l-ornithine production in a well-defined recombinant strain of Corynebacterium glutamicum. In this work, an argJ-deficient arginine auxotrophic mutant of C. glutamicum is suppressed by a different locus of C. glutamicum ATCC13032. Overexpression of the NCgl1469 open reading frame (ORF), exhibiting N-acetylglutamate synthase (NAGS) activity, was able to complement the C. glutamicum arginine-auxotrophic argJ strain and showed increased NAGS activity from 0.03 to 0.17 units mg⁻¹ protein. Additionally, overexpression of the NCgl1469 ORF resulted in a 39% increase in excreted l-ornithine. These results indicate that the intracellular supply of N-acetylglutamate is a rate-limiting step during l-ornithine production in C. glutamicum.     

Effect of polyamines and L-ornithine on the development of proembryogenic masses of Cryptomeria japonica

We examined the effects of polyamines, namely, putrescine, spermidine and spermine, and of amino acids, such as l-arginine and l-ornithine, as part of our efforts to identify factors that stimulate the development of proembryogenic masses (PEMs) of Cryptomeria japonica. We maintained two distinct types of PEM designated PEMs A, which consisted of normal embryogenic cells as single embryos with elongated suspensor cells, and PEMs B, which consisted of abnormal embryogenic cells with coalesced embryos on modified Campbell and Durzan medium (mCD) supplemented with individual polyamines at 0–100 μM or amino acids at 0–16.4 mM. All additives had a stimulatory/suppressive effect. Microscopy and image-processing techniques revealed that the regions of authentic embryos of PEMs that were treated with l-ornithine were remarkably enlarged and that the suspensor cells had elongated in the same direction. When all PEMs A were transferred to maturation medium (mCD that contained abscisic acid and maltose at various concentrations), only PEMs that had been treated with l-ornithine matured into somatic embryos and were able to germinate on hormone-free mCD. Our results indicate that l-ornithine is an important stimulator of the development of PEMs to the pre-filamentous stage in C. japonica.     

Biotechnological production of polyamines by bacteria: recent achievements and future perspectives

In Bacteria, the pathways of polyamine biosynthesis start with the amino acids l-lysine, l-ornithine, l-arginine, or l-aspartic acid. Some of these polyamines are of special interest due to their use in the production of engineering plastics (e.g., polyamides) or as curing agents in polymer applications. At present, the polyamines for industrial use are mainly synthesized on chemical routes. However, since a commercial market for polyamines as well as an industry for the fermentative production of amino acid exist, and since bacterial strains overproducing the polyamine precursors l-lysine, l-ornithine, and l-arginine are known, it was envisioned to engineer these amino acid-producing strains for polyamine production. Only recently, researchers have investigated the potential of amino acid-producing strains of Corynebacterium glutamicum and Escherichia coli for polyamine production. This mini-review illustrates the current knowledge of polyamine metabolism in Bacteria, including anabolism, catabolism, uptake, and excretion. The recent advances in engineering the industrial model bacteria C. glutamicum and E. coli for efficient production of the most promising polyamines, putrescine (1,4-diaminobutane), and cadaverine (1,5-diaminopentane), are discussed in more detail.     

Lysinuric protein intolerance mutation is not expressed in the plasma membrane of erythrocytes

Summary We measured mediated fluxes of l-lysine and l-ornithine across the plasma membrane of erythrocytes from control subjects and patients homozygous for the lysinuric protein intolerance (LPI) mutation. We found no differences in net uptake or efflux of cationic amino acids in control and LPI cells, contrary to our findings in cultured skin fribroblasts. We conclude that expression of the LPI (y⁺) transport system for cationic amino acids varies between tissues and that measurements of fluxes in erythrocytes cannot be used for diagnosis of LPI.     

A new non-natural arginine-like amino acid derivative with a sulfamoyl group in the side-chain

Sulfamoylation of the l-ornithine methyl ester side-chain generates a non-natural arginine isostere which can be coupled with N-Fmoc-l-proline to synthesize analogues which maintain the structural characteristics of the biologically important Pro-Arg dipeptide sequence. As a probe of its biological importance, the sulfamoylated amino acid derivative was also incorporated as P1 residue in tripeptide structures matching the C-terminal subsequence of fibrinogen. The reported results demonstrate that the functionalization of l-ornithine side-chain with a neutral sulfamoyl group can generate an arginine bioisostere which can be used for the synthesis of prototypes of a new class of human thrombin inhibitors.     

Characterization of cationic amino acid transporters (hCATs) 1 and 2 in human skin

In the present study, we characterized the distribution of human cationic amino acid transporters 1 (hCAT1) and 2 (hCAT2) in healthy skin and compared it to psoriatic skin lesions by means of immunohistochemistry. Moreover, we tested the hypothesis that l-arginine and l-ornithine influence the expression and synthesis of hCAT1 and hCAT2 in cell culture experiments by means of real-time-PCR and Western blot. Immunohistochemical comparison between healthy and psoriatic skin revealed a decreased amount of hCAT1, especially in the stratum granulosum of psoriatic skin; the distribution pattern of hCAT2 was not significantly affected in psoriatic skin. Cell culture experiments showed that supraphysiological concentrations of 15 mM l-arginine (72 h) lead to a significant increase of the hCAT1-mRNA and protein expression, whereas other concentrations had no significant influence. In contrast, l-arginine concentrations of 2 mM led to a significant increase of the hCAT2B mRNA-expression after 24 h. However, 48 and 72 h revealed no significant changes and high concentrations (15 mM l-arginine) led to a significant downregulation of the hCAT2B transporter over all time points analyzed. l-ornithine had no effect on the hCAT1 expression of mRNA and protein level. On the other hand the expression of hCAT2B was significantly up regulated at a 5-mM concentration of l-ornithine at all analyzed time points. Other concentrations had no effect. For the first time, the findings yield data about hCAT1 and hCAT2 on protein-level and suggest that l-arginine is a worthwhile object of studies, which investigated l-arginine as a possible therapeutic agent to reduce psoriatic symptoms.     

Real-time monitoring of extracellular matrix-mediated PC12 cell attachment and proliferation using an electronic biosensing device

The attachment and proliferation of a well-established, neuron-like cell line, rat pheochromocytoma (PC12) cells, on different extracellular matrices (ECMs) was monitored using cellular impedance sensing (CIS). Commonly used ECMs, including fibronectin, laminin, poly-l-lysine, collagen and poly-l-lysine followed by laminin, in addition to DMEM cell culture media alone as a control, were studied: CIS identified the dynamic progress of the adhesion and proliferation of the cells on different ECMs. Among these modified ECM surfaces, the laminin- and poly-l-lysine/laminin-modified surfaces were the best suited for the neuron-to-electrode surface attachment and proliferation, which was confirmed by MTT assays and a scanning electron microscopy analysis. This work provides a simple method to study neuron cell/ECM interactions in a real-time, label-free, and quantitative manner.     

Vacuolar localization of 1-sinapolglucose: l-malate sinapoyltransferase in protoplasts from cotyledons of Raphanus sativus

The distribution of l-malate, sinapic acid esters and 1-sinapoylglucose: l-malate sinapoyltransferase (SMT) which catalyzes the synthesis of sinapoyl-l-malate were examined in preparations of protoplasts obtained from cotyledons of red radish (Raphanus sativus L. var. sativus). Vacuoles isolated from the protoplasts contained all of the SMT activity, all of the accumulated sinapic acid esters and about 50% of free l-malate present initially in the protoplasts. An esterase activity, acting on 1-sinapoyglucose, was found to be exclusively localized in the cytoplasm and a large proportion was found to be recoverable in a 100 000-g pellet obtained from protoplast lysates. The vacuoles were obtained after lysis of the protoplasts by osmotic shock and purification on a Ficoll gradient. The cytoplasmic contamination of vacuole preparations was found to be about 10%, as judged by enzymatic markers and microscopic inspection. No SMT activity was found in a 100 000-g pellet obtained from vacuole lysates. The results indicate that biosynthesis of sinapoyl-l-malate takes place within the central vacuoles of redradish cotyledons.Abbreviation SMT 1-sinapoylglucose: l-malate sinapol-transferase     

Metabolic interactions between restraint stress and <Emphasis Type="SmallCaps">l</Emphasis>-lysine: The effect on urea cycle components

Summary.  We studied the effects of l-lysine on wrap-restraint stress-induced changes in ureagenesis. An exposure to wrap-restraint stress did not affect the plasma concentration of l-lysine, but did decrease plasma urea and arginine. Oral l-lysine (1 g/kg) blocked the effect of stress on ureagenesis, and enhanced the effect of stress on l-arginine. No influence of l-lysine were found in controls. The results imply a stress-specific, ureagenesis-stimulating effect of l-lysine, and suggest an increased requirement for l-arginine during the above conditions. Received December 9, 2002 Accepted January 21, 2003 Published online April 3, 2003 Acknowledgement Authors thank Dr. M. Miura (Ajinomoto Co.) for his help with amino acid analysis and Dr. T. Kimura (Ajinomoto Co.) for discussions on amino acid metabolism. Authors' address: Dr. M. Smriga, Ajinomoto Co. Inc., Institute of Life Sciences, 1-1 Suzuki-cho, 210-8681 Kawasaki, Japan, Fax +81-44-210-5893, E-mail: miroslav_smriga@ajinomoto.com Abbreviations: Arg, l-arginine; Orn, l-ornithine; Lys, l-lysine; p.o., oral; WRS, wrap-restraint stress     

Mechanism of liposome destabilization by polycationic amino acids

Polycationic amino acids induce the leakage and fusion of liposomes containing anionic lipids. We have investigated the nature and extent of the changes in membrane physical properties caused by these polypeptides which could result in the observed membrane destabilization. We found that in the range of pH 5 to pH 7 both poly-l-histidine and poly-l-lysine were ineffective in shifting the bilayer to hexagonal phase transition temperature of dielaidoylphosphatidylethanolamine, either in the presence of absence of 1-palmitoyl-2-oleoylphosphatidylserine. We also studied the gel to liquid crystalline phase transition properties of 11 mixtures of phosphatidylserine and phosphatidylethanolamine, both in dimyristoyl forms as well as the 1-palmitoyl-2-oleoyl forms, as a function of pH and in the presence and absence of polycationic amino acids. We observed that these two lipids were largely miscible at all pH values and in the presence and absence of the polypeptides. However, there was some increased tendency for phase separation at higher pH and in the absence of polypeptide. Thus neither changes in curvature strain nor lateral phase separation induced by the polycationic amino acids could account for their marked ability to induce leakage and fusion.Phosphatidylethanolamine labelled with pyrene on one of the acyl chains gives rise to fluorescent emission from both monomer and excimer forms. The ratio of emission intensity from these two forms is indicative of lateral phase separation and the degree of lateral mobility of this probe. In equimolar mixtures of the 1-palmitoyl-2-oleoyl forms of phosphatidylserine and phosphatidylethanolamine in the liquid crystalline phase at 30 °C we find little effect of pH on the ratio of excimer to monomer emission intensity. However poly-l-lysine markedly lowers the fraction of excimer emission from these liposomes through the pH range from 5 to 7. Poly-l-histidine lowers the excimer to monomer emission ratio at pH 5 but not at pH 7. This is opposite to what one would expect for lateral phase separation and is interpreted at being the consequence of the polypeptide lowering the rate of lateral diffusion of the lipids. This effect of poly-l-histidine is observed over a range of temperatures from 0 to 40°C in both gel and liquid crystalline phases. There is no evidence from the behaviour of the pyrene fluorescent probe for lipid interdigitation. We conclude that the promotion of leakage and fusion in anionic liposomes by polycationic amino acids is not a result of large changes in the physical properties or arrangements of the lipids but rather to a surface binding of the polyamino acids.Abbreviations DSC differential scanning calorimetry - DEPE dielaidoylphosphatidylethanolamine - POPS 1-palmitoyl-2-oleoylphosphatidylethanolamine - DMPS dimyristoylphosphatidylserine - DMPE dimyristoylphosphatidylethanolamine - POPE 1-palmitoyl-2-oleoylphosphatidylethanolamine - T_H bilayer to hexagonal phase transition temperature - pyr-PE 1-hexadecanoyl-2-(1-pyrenedecanoyl)-sn-glycero-3-phosphoethanolaline - E/M ratio of intensities of excimer to monomer emission     

N5-(l-1-Carboxyethyl)-l-ornithine: NADP+ oxidoreductase inStreptococcus lactis: Distribution,constitutivity, and regulation

N⁵-(l-1-Carboxyethyl)-l-ornithine: NADP⁺ oxidoreductase [N⁵-(CE)ornithine synthase] catalyzes the NADPH-dependent reductive condensation between pyruvic acid and the terminal amino group ofl-ornithine andl-lysine to yield N⁵-(l-1-carboxyethyl)-l-ornithine and N⁶-(l-1-carboxyethyl)-l-lysine respectively. Polyclonal antibodies against N⁵-(CE)ornithine synthase purified fromStreptococcus lactis K1 have been used for the immunochemical (Western blot) detection and sizing of this enzyme in various lactic acid bacteria. The enzyme was confined to about one-half of the strains ofS. lactis examined. N⁵-(CE)ornithine synthase is constitutive, and in strains K1, 6F3, and (plasmid-free)H₁-4125 the native enzyme is a tetramer composed of identical subunits of M_r=38,000. However, in other strains, including 133 (ATCC 11454), C₁₀, and ML₈, the molecular weight of the native enzyme is approximately 130,000 and the corresponding subunit M_r=35,000. Analyses of the amino acid pool components maintained byS. lactis K1 during growth in medium containing [¹⁴C] labeled and unlabeled arginine have revealed that (i) exogenous arginine is the precursor of intracellular ornithine, citrulline, and N⁵-(CE)ornithine, and (ii) the rates of turnover of ornithine and citrulline were considerably faster than that of N⁵-(CE)ornithine. These data account for the biosynthesis and accumulation of N⁵-(CE)ornithine byS. lactis.     

N2-Succinylornithine in ornithine catabolism of Pseudomonas aeruginosa

Most Pseudomonas aeruginosa PAO mutants which were unable to utilize l-arginine as the sole carbon and nitrogen source (aru mutants) under aerobic conditions were also affected in l-ornithine utilization. These aru mutants were impaired in one or several enzymes involved in the conversion of N²-succinylornithine to glutamate and succinate, indicating that the latter steps of the arginine succinyltransferase pathway can be used for ornithine catabolism. Addition of aminooxyacetate, an inhibitor of the N²-succinylornithine 5-aminotransferase, to resting cells of P. aeruginosa in ornithine medium led to the accumulation of N²-succinylornithine. In crude extracts of P. aeruginosa an ornithine succinyltransferase (l-ornithine:succinyl-CoA N²-succinyltransferase) activity could be detected. An aru mutant having reduced arginine succinyltransferase activity also had correspondingly low levels of ornithine succinyltransferase. Thus, in P. aeruginosa, these two activities might be due to the same enzyme, which initiates aerobic arginine and ornithine catabolism.Abbreviations OAT ornithine 5-aminotransferase - SOAT N²-succinylornithine 5-aminotransferase - Oru ornithine utilization - Aru arginine utilization     

Ornithine dissimilation byTreponema denticola

Treponema denticola convertedl-ornithine, a product ofl-arginine catabolism, to putrescine via a decarboxylation reaction and to proline via a deamination reaction. Ornithine decarboxylation byT. denticola extracts was stimulated by pyridoxal 5′-phosphate. In the absence of pyridoxal 5′-phosphate, (NH₄)₂SO₄-fractionated extracts converted ornithine to proline and ammonia. This activity was not stimulated by α-keto acids, nicotinamide adenine dinucleotide, reduced nicotinamide adenine dinucleotide or ADP. Neither ornithine δ-transaminase (l-ornithine: 2-oxoacid aminotransferase, EC 2.6.1.13) nor Δ¹ reductase [l-proline: NAD(P) 5-oxidoreductase, EC 1.5.1.2.] activity was detectable in cell extracts. These results indicate that formation of proline from ornithine inT. denticola is catalyzed by an enzyme system analogous to the ornithine cyclase (deaminating) ofClostridium sporogenes. Exogenous ornithine inhibited the growth ofT. denticola. Thus, in addition to generating putrescine and proline, the ornithine dissimilatory pathways may serve to prevent accumulation of inhibitory concentrations of ornithine in the spirochete's environment.