Aldehyde oxidase carrying an unusual subunit structure from Pseudomonas sp. MX‐058

Pseudomonas sp. MX‐058 produces aldehyde oxidase catalysing glyoxal to glyoxylic acid. Two aldehyde oxidases (F10 and F13) were purified to homogeneity from Pseudomonas sp. MX‐058. F10 and F13 had subunit structures, a heterotetramer and heteropentamer respectively. The N‐terminal amino acid sequences of all subunits were highly homologous to amino acid sequences of the putative oxidoreductases of Pseudomonas strains. All of these homologous oxidoreductases have a heterotrimer structure consisting of 85‐88 (α), 37‐39 (β) and 18‐23 (γ) kDa subunits. However, the α‐subunits of F10 and F13 might have decomposed into two [80 (α¹) and 9 kDa (α²)] and three [58 (α^1′), 22 (α^1″) and 9 (α²) kDa] subunits, respectively, while the β‐ and γ‐subunits remained intact. Both F10 and F13 show high activity toward several aliphatic and aromatic aldehydes. The aldehyde oxidases of Pseudomonas sp. MX‐058 has unique protein structures, α¹α²βγ for F10 and α^1′α^1″α²βγ for F13, a heterotetramer and heteropentamer respectively. The enzymes exhibit significantly low activity toward glyoxylic acid compared with glyoxal, which is an advantageous property for glyoxylic acid production from glyoxal.     

Characterization of Neutralizing Epitopes of Varicella-Zoster Virus Glycoprotein H

Varicella-zoster virus (VZV) glycoprotein H (gH) is the major neutralization target of VZV, and its neutralizing epitope is conformational. Ten neutralizing human monoclonal antibodies to gH were used to map the epitopes by immunohistochemical analysis and were categorized into seven epitope groups. The combinational neutralization efficacy of two epitope groups was not synergistic. Each epitope was partially or completely resistant to concanavalin A blocking of the glycomoiety of gH, and their antibodies inhibited the cell-to-cell spread of infection. The neutralization epitope comprised at least seven independent protein portions of gH that served as the target to inhibit cell-to-cell spread.     

Microbial oxidases catalyzing conversion of glycolaldehyde into glyoxal

The present paper reviews oxidases catalyzing conversion of glycolaldehyde into glyoxal. The enzymatic oxidation of glycolaldehyde into glyoxal was first reported in alcohol oxidases (AODs) from methylotrophic yeasts such as Candida and Pichia, and glycerol oxidase (GLOD) from Aspergillus japonicus, although it had been reported that these enzymes are specific to short-chain linear aliphatic alcohols and glycerol, respectively. These enzymes continuously oxidized ethylene glycol into glyoxal via glycolaldehyde. The AODs produced by Aspergillus ochraceus and Penicillium purpurescens also oxidized glycolaldehyde. A new enzyme exhibiting oxidase activity for glycolaldehyde was reported from a newly isolated bacterium, Paenibacillus sp. AIU 311. The Paenibacillus enzyme exhibited high activity for aldehyde alcohols such as glycolaldehyde and glyceraldehyde, but not for methanol, ethanol, ethylene glycol or glycerol. The deduced amino acid sequence of the Paenibacillus AOD was similar to that of superoxide dismutases (SODs), but not to that of methylotrophic yeast AODs. Then, it was demonstrated that SODs had oxidase activity for aldehyde alcohols including glycolaldehyde. The present paper describes characteristics of glycolaldehyde oxidation by those enzymes produced by different microorganisms.     

A New Enzyme,Agmatine Oxidase,from Fungi

A new enzyme, agmatine oxidase, was found in Penicillium chrysogenum. The oxidation products of agmatine with the enzyme were identified as γ-guanidinobutyraldehyde, NH₃ and H₂O₂. The enzyme rapidly oxidized agmatine, and slightly oxidized histamine, putrescine, 1,3-diaminopropane and cadaverine. Monoamines, polyamines and guanidyl derivatives were not oxidized by the enzyme. Maximal formation of the enzyme of P. chrysogenum was observed in the early stationary phase of growth, and thereafter the enzyme disappeared with consumption of substrate. In addition to agmatine, spermine, spermidine and putrescine were also effective as nitrogen sources. Agmatine oxidase was found in mycelia of fungi belonging to the genera of Aspergillus, Penicillium, Absidia, Fusarium, Mucor, Gibberella, Cylindrocarpon and Monascus when they were grown in agmatine-containing medium.     

Characterization of a novel hydroxynitrile lyase from Nandina domestica Thunb

The leaves of Nandina domestica Thunb. exhibited high hydroxynitrile lyase (HNL) activity in (R)-mandelonitrile synthesis. The specific activity of young leaves was significantly higher than that of mature leaves. We isolated two HNLs with molecular mass of 24.9 kDa (NdHNL-S) and 28.0 kDa (NdHNL-L) from the young leaves. Both NdHNLs were composed of two identical subunits, without FAD and carbohydrates. We purified NdHNL-L and revealed its enzymatic properties. The whole deduced amino acid sequence of NdHNL-L was not homologous to any other HNLs, and the specific activity for mandelonitrile synthesis by NdHNL-L was higher than that by other plant HNLs. The enzyme catalyzed enantioselective synthesis of (R)-cyanohydrins, exhibited high activity at pH 4.0, and high stability in the pH range of 3.5–8.0 and below 55°C. Thus, NdHNL-L is a novel HNL with novel amino acid sequence and has a potential for the efficient production of (R)-cyanohydrins.     

Continuous Presence of Noroviruses and Sapoviruses in Raw Sewage Reflects Infections among Inhabitants of Toyama,Japan (2006 to 2008)

Various genotypes of norovirus (NoV) (genogroup I genotype 1 [GI.1], -2, -4, -5, -8, -11, -12, and -14; GII.3, -4, -6, -7, -10, -13, -14, and -15), and sapovirus (SaV) (GI.1 and GI.2, GII.1, and GIV.1) were detected from raw sewage from April 2006 to March 2008, while limited numbers of genotypes of NoV (GI.8, GII.4, GII.6, and GII.13) and SaV (GII.3 and GIV.1) and of NoV (GII.4, GII.7, and GII.13) were detected from clinical cases and healthy children, respectively. During the winter 2006 to 2008, a large number of sporadic gastroenteritis outbreaks and many outbreaks caused by NoV GII.4 occurred among inhabitants in Toyama, Japan. The copy number of genomes of NoV GII detected from raw sewage changed in relation to the number of outbreaks. NoV strains of the same genotypes observed in both raw sewage and human specimens belonged to the same cluster by phylogenetic analysis and had almost identical nucleotide sequences among each genotype. These data suggest that NoVs and SaVs detected from raw sewage reflect the viruses circulating in the community, irrespective of symptoms, and that subclinical infections of NoV are common in Japan. Combined surveys of raw sewage with those of clinical cases help us to understand the relationship between infection of these viruses and gastroenteritis.Norovirus (NoV) and sapovirus (SaV), members of the Caliciviridae family, are considered to be a major cause of acute gastroenteritis in humans. Both NoV and SaV infect humans via the fecal-oral route and cause family or community-wide outbreaks, mainly in the winter season. NoVs are shed in feces at a level of 10⁵ to 10⁹ virus particles per gram during the symptomatic phase (32, 37), and viruses are continuously shed from patients after cessation of the symptoms (28, 37, 40). In addition, recent reports showed relatively high levels of shedding of the viruses from asymptomatic individuals (7, 8, 32, 37).NoVs and SaVs show high diversity in their genomes (5, 9). According to such a genetic diversity, they are classified into several genogroups (genogroup I [GI], GII, and GIV for human NoV and GI, GII, GIV, GV for human SaV) and further divided into many genotypes (NoV GI genotypes 1 to 14 [GI.1-14] and GII.1-17 and SaV GI.1-5, GII.1-6, GIV.1, and GV.1) (10, 17, 18). In 2006 to 2007, NoV GII.4 caused a large number of outbreaks of acute gastroenteritis worldwide (1, 11, 35, 43, 45). However, the other genotypes of NoV and SaV may infect humans asymptomatically and persist in the environment.Raw sewage could contain enteric viruses shed from affected people, and therefore, detectable viruses in raw sewage would reflect the actual state of the circulating viruses in the area. We previously reported that polioviruses in raw sewage and river water were isolated at the same time as oral vaccination in babies, and these isolates were derived from vaccine strains (13, 30). We also showed that the nucleotide sequences of echovirus type 13 isolated from river water were closely related to those from patients with aseptic meningitis during the outbreak in 2002 (14). For NoVs and SaVs, many epidemiological surveys have been conducted to determine the prevalence and virological properties of these viruses (42). Previous reports have shown that the nucleotide sequences of NoV strains from stools of outbreaks in nursing homes and from sewage were identical for an individual outbreak (26), and NoVs detected from gastroenteritis patients, domestic sewage, river water, and cultivated oysters in the area were related to each other (44). However, less is known about infection of the viruses with minor genotypes that are silently circulating in the population.In this study, we investigated NoVs and SaVs in raw sewage from 2006 to 2008 in Japan and compared the results with the viruses detected from clinical cases as well as healthy individuals to show the comprehensive prevalence of these viruses in the community.     

Crystallization and Characterization of Polyamine Oxidase from Aspergillus terreus

A thin-layer flow cell system for the determination of l-ascorbic acid by an ascorbate electrode was constructed and several components of this system were investigated. The most preferable conditions for optimum operation of the system were as follows: injection volume 150 μ1, delay coil length 60 cm, flow rate 1 ml/min, temperature 20°C, cell spacer thickness 0.2 mm. The linear response region was 0.2-3.0 mm and 0.02-0.5 mm (original l-ascorbic acid concentration) in the cases of pure oxygen and atmospheric oxygen bubbling, respectively. The relative standard variation at 1.5 mm l-ascorbic acid was 3.1 % for 20 successive assays. The measuring time was 2–3 min for each of these assays.     

Kinetic Properties of Fungal Polyamine Oxidases and Their Application to Differential Determination of Spermine and Spermidine

Polyamine oxidase from Penicillium chrysogenum oxidized spermine rapidly and spermidine slightly at pH 7.5. The apparent Km values for spermine and spermidine were calculated to be 2.25 × 10^?5 m and 9.54 × 10^?6 m, respectively. The relative maximum velocities for spermine and spermidine were 3.37 × 10^?3 m (H₂O₂) per min per mg of protein and 2.08 × 10^?4 m (H₂O₂) per min per mg of protein, respectively. Spermine oxidation of the enzyme was competitively inhibited by spermidine and putrescine. The apparent Ki values by spermidine and putrescine were calculated to be 3.00 × 10^?5 m and 1.80 × 10^?8 m, respectively. On the other hand, polyamine oxidase from Aspergillus terreus rapidly oxidized both spermidine and spermine at pH 6.5. The apparent Km values for spermidine and spermine were 1.20 × 10^?8 m and 5.37 × 10^?7 m, respectively. The relative maximum velocities for spermidine and spermine were 1.55 × 10^?2 m (H₂O₂) per min per mg of protein and 6.20 × 10^?3 m (H₂O₂) per min per mg of protein, respectively.

Differential determination of spermine and spermidine was carried out using the two enzymes. The initial rate was assayed with Penicillium enzyme and the end point was measured afte addition of Aspergillus enzyme. Small amounts of polyamines (25 to 200 nmol of spermine and 25 to 250 nmol of spermidine) were assayed by solving two simultaneous equations obtained from the rate assay method and the end point assay method. The calculated values were in close agreement with those obtained by an amino-acid analyzer.     

Microemulsion-Based Oxyresveratrol for Topical Treatment of Herpes Simplex Virus (HSV) Infection: Physicochemical Properties and Efficacy in Cutaneous HSV-1 Infection in Mice

The physicochemical properties of the optimized microemulsion and the permeating ability of oxyresveratrol in microemulsion were evaluated, and the efficacy of oxyresveratrol microemulsion in cutaneous herpes simplex virus type 1 (HSV-1) infection in mice was examined. The optimized microemulsion was composed of 10% w/w of isopropyl myristate, 35% w/w of Tween 80, 35% w/w of isopropyl alcohol, and 20% w/w of water. The mean particle diameter was 9.67 ± 0.58 nm, and the solubility of oxyresveratrol in the microemulsion was 196.34 ± 0.80 mg/ml. After accelerated and long-term stability testing, the microemulsion base and oxyresveratrol-loaded microemulsion were stable. The cumulative amount of oxyresveratrol permeating through shed snake skin from microemulsion at 6 h was 93.04 times compared to that of oxyresveratrol from Vaseline, determined at 20% w/w concentration. In cutaneous HSV-1 infection in mice, oxyresveratrol microemulsion at 20%, 25%, and 30% w/w, topically applied five times daily for 7 days after infection, was significantly effective in delaying the development of skin lesions and protecting from death (p < 0.05) compared with the untreated control. Oxyresveratrol microemulsion at 25% and 30% w/w was significantly more effective than that of 30% w/w of oxyresveratrol in Vaseline (p < 0.05) and was as effective as 5% w/w of acyclovir cream, topically applied five times daily (p > 0.05). These results demonstrated that topical oxyresveratrol microemulsion at 20–30% w/w was suitable for cutaneous HSV-1 mouse infection.KEY WORDS: cutaneous infection in mice, herpes simplex virus, microemulsion, oxyresveratrol, therapeutic efficacy