Isolation,identification and genetic organization of the ADI operon in <Emphasis Type="Italic">Enterococcus faecium</Emphasis> GR7

L-Arginine is an indispensable amino acid, as it is required for normal growth of microbes, plants and animals (Szende et al., Cancer Cell Int 1:1475–1480, 2001). Arginine deiminase is the first enzyme of arginine deiminase (ADI) pathway, which catalyzes the conversion of arginine to citrulline and ammonia in an irreversible reaction. Lactic acid bacteria isolated from dairy products were investigated for their ability to hydrolyze arginine. Citrulline production in many LAB strains suggests that the arginine metabolism takes place via the arginine deiminase pathway. The highest arginine deiminase specific activity (0.27 IU/mg) was reported in isolate GR7, which was characterized morphologically, biochemically and by 16S rRNA gene sequencing as Enterococcus faecium. Genetic organization of the ADI operon in E. faecium GR7 was further studied using various molecular biology and computational techniques. Sequence analysis revealed that the genes involved in arginine catabolism are clustered together in an operon (3,906 bp) consisting of the genes arcA (arginine deiminase), arcB (ornithine transcarbamylase), and arcC (carbamate kinase), which are localized on the anti-sense strand of genomic DNA. Nucleotide sequence analysis revealed three open reading frames (ORFs) that were arranged contiguously and transcribed in the same direction, as an apparent operon. The genes followed the order arcC, arcB, arcA, which differs from that found in other microorganisms. The information obtained in this study provides the basis for testing the potential of arginine catabolism to control the emergence of arginine auxotrophic tumors.     

嗜盐四联球菌arc operon多拷贝基因在精氨酸代谢中的作用

【背景】嗜盐四联球菌(Tetragenococcus halophilus)是一类存在于发酵食品中的耐盐乳酸菌,研究其精氨酸(arginine,Arg)代谢对解析食品发酵过程中氨基甲酸乙酯(ethyl carbamate,EC)前体积累机制和保障食品安全具有重要意义。【目的】研究酱醪来源嗜盐四联球菌精氨酸脱亚氨基(arginine deiminase,ADI)途径的基因构成,揭示这些基因对菌株精氨酸代谢和氨基甲酸乙酯前体瓜氨酸(citrulline,Cit)利用与积累的影响。【方法】采用PCR扩增与测序分析不同菌株的ADI途径基因组成,通过比较ADI途径关键基因转录水平和关键酶活性,探究环境因素对嗜盐四联球菌代谢氨基酸能力的影响及各拷贝基因参与氨基酸代谢的功能。【结果】酱醪来源嗜盐四联球菌基因组中ADI途径基因类型主要有两大类：以菌株R23为代表含有完整arc操纵子(operon)基因且具有最多基因拷贝数;以菌株C3为代表缺失arcA和arcB但含有多拷贝arcB和arcC。基因组中有arcA的菌株才具有利用精氨酸能力,并通过利用精氨酸生成瓜氨酸。体系中精氨酸含量和乙醇与脂肪酸的存在均可影响嗜盐四联球菌利用精氨酸积累中间产物瓜氨酸。当精氨酸含量大于5 g/L或体系中含有乙醇与脂肪酸时,嗜盐四联球菌会利用精氨酸积累中间产物瓜氨酸。脂肪酸和乙醇对ADI途径的3个关键酶均有显著抑制作用,可使精氨酸脱亚氨基酶(arginine deiminase,ADI)、鸟氨酸氨甲酰基转移酶(ornithine transcarbamylase,OTC)和氨甲酰磷酸激酶(carbamate kinase,CK)的活性分别降低41.0%、46.4%和60.0%。嗜盐四联球菌中arcB转录水平分别是其拷贝arcB₁和arcB₂的10.5倍和29.8倍,arcC的转录水平分别是arcC₁、arcC₂、arcC₃的17.6、20.3、23.9倍,说明arcB和arcC在瓜氨酸代谢中起主要作用。【结论】精氨酸含量和乙醇加脂肪酸是影响嗜盐四联球菌代谢精氨酸能否积累瓜氨酸的关键环境因素。嗜盐四联球菌arc operon的多拷贝基因中,arcB和arcC基因在瓜氨酸代谢中起主要作用。     

Effect of colony morphology variation of <Emphasis Type="Italic">Burkholderia pseudomallei</Emphasis> on intracellular survival and resistance to antimicrobial environments in human macrophages in vitro

Background  

Primary diagnostic cultures from patients with melioidosis demonstrate variation in colony morphology of the causative organism, Burkholderia pseudomallei. Variable morphology is associated with changes in the expression of a range of putative virulence factors. This study investigated the effect of B. pseudomallei colony variation on survival in the human macrophage cell line U937 and under laboratory conditions simulating conditions within the macrophage milieu. Isogenic colony morphology types II and III were generated from 5 parental type I B. pseudomallei isolates using nutritional limitation. Survival of types II and III were compared with type I for all assays.     

Molecular Signatures Identify a Candidate Target of Balancing Selection in an arcD-Like Gene of Staphylococcus epidermidis

A comparative population genetics study revealed high levels of nucleotide polymorphism and intermediate-frequency alleles in an arcC gene of Staphylococcus epidermidis, but not in a homologous gene of the more aggressive human pathogen, Staphylococcus aureus. Further investigation showed that the arcC genes used in the multilocus sequence typing schemes of these two species were paralogs. Phylogenetic analyses of arcC-containing loci, including the arginine catabolic mobile element, from both species, suggested that these loci had an eventful history involving gene duplications, rearrangements, deletions, and horizontal transfers. The peak signatures in the polymorphic S. epidermidis locus were traced to an arcD-like gene adjacent to arcC; these signatures consisted of unusually elevated Tajima’s D and π/K ratios, which were robust to assumptions about recombination and species divergence time and among the most elevated in the S. epidermidis genome. Amino acid polymorphisms, including one that differed in polarity and hydropathy, were located in the peak signatures and defined two allelic lineages. Recombination events were detected between these allelic lineages and potential donors and recipients of S. epidermidis were identified in each case. By comparison, the orthologous gene of S. aureus showed no unusual signatures. The ArcD-like protein belonged to the unknown ion transporter 3 family and appeared to be unrelated to ArcD from the arginine deiminase pathway. These studies report the first comparative population genetics results for staphylococci and the first statistical evidence for a candidate target of balancing selection in S. epidermidis.     

Altered Proteome of Burkholderia pseudomallei Colony Variants Induced by Exposure to Human Lung Epithelial Cells

Burkholderia pseudomallei primary diagnostic cultures demonstrate colony morphology variation associated with expression of virulence and adaptation proteins. This study aims to examine the ability of B. pseudomallei colony variants (wild type [WT] and small colony variant [SCV]) to survive and replicate intracellularly in A549 cells and to identify the alterations in the protein expression of these variants, post-exposure to the A549 cells. Intracellular survival and cytotoxicity assays were performed followed by proteomics analysis using two-dimensional gel electrophoresis. B. pseudomallei SCV survive longer than the WT. During post-exposure, among 259 and 260 protein spots of SCV and WT, respectively, 19 were differentially expressed. Among SCV post-exposure up-regulated proteins, glyceraldehyde 3-phosphate dehydrogenase, fructose-bisphosphate aldolase (CbbA) and betaine aldehyde dehydrogenase were associated with adhesion and virulence. Among the down-regulated proteins, enolase (Eno) is implicated in adhesion and virulence. Additionally, post-exposure expression profiles of both variants were compared with pre-exposure. In WT pre- vs post-exposure, 36 proteins were differentially expressed. Of the up-regulated proteins, translocator protein, Eno, nucleoside diphosphate kinase (Ndk), ferritin Dps-family DNA binding protein and peptidyl-prolyl cis-trans isomerase B were implicated in invasion and virulence. In SCV pre- vs post-exposure, 27 proteins were differentially expressed. Among the up-regulated proteins, flagellin, Eno, CbbA, Ndk and phenylacetate-coenzyme A ligase have similarly been implicated in adhesion, invasion. Protein profiles differences post-exposure provide insights into association between morphotypic and phenotypic characteristics of colony variants, strengthening the role of B. pseudomallei morphotypes in pathogenesis of melioidosis.     

Structural Characterization of the Enzymes Composing the Arginine Deiminase Pathway in Mycoplasma penetrans

The metabolism of arginine towards ATP synthesis has been considered a major source of energy for microorganisms such as Mycoplasma penetrans in anaerobic conditions. Additionally, this pathway has also been implicated in pathogenic and virulence mechanism of certain microorganisms, i.e. protection from acidic stress during infection. In this work we present the crystal structures of the three enzymes composing the gene cluster of the arginine deiminase pathway from M. penetrans: arginine deiminase (ADI), ornithine carbamoyltransferase (OTC) and carbamate kinase (CK). The arginine deiminase (ADI) structure has been refined to 2.3 Å resolution in its apo-form, displaying an “open” conformation of the active site of the enzyme in comparison to previous complex structures with substrate intermediates. The active site pocket of ADI is empty, with some of the catalytic and binding residues far from their active positions, suggesting major conformational changes upon substrate binding. Ornithine carbamoyltransferase (OTC) has been refined in two crystal forms at 2.5 Å and 2.6 Å resolution, respectively, both displaying an identical dodecameric structure with a 23-point symmetry. The dodecameric structure of OTC represents the highest level of organization in this protein family and in M.penetrans it is constituted by a novel interface between the four catalytic homotrimers. Carbamate kinase (CK) has been refined to 2.5 Å resolution and its structure is characterized by the presence of two ion sulfates in the active site, one in the carbamoyl phosphate binding site and the other in the β-phosphate ADP binding pocket of the enzyme. The CK structure also shows variations in some of the elements that regulate the catalytic activity of the enzyme. The relatively low number of metabolic pathways and the relevance in human pathogenesis of Mycoplasma penetrans places the arginine deiminase pathway enzymes as potential targets to design specific inhibitors against this human parasite.     

Burkholderia pseudomallei Colony Morphotypes Show a Synchronized Metabolic Pattern after Acute Infection

BackgroundBurkholderia pseudomallei is a water and soil bacterium and the causative agent of melioidosis. A characteristic feature of this bacterium is the formation of different colony morphologies which can be isolated from environmental samples as well as from clinical samples, but can also be induced in vitro. Previous studies indicate that morphotypes can differ in a number of characteristics such as resistance to oxidative stress, cellular adhesion and intracellular replication. Yet the metabolic features of B. pseudomallei and its different morphotypes have not been examined in detail so far. Therefore, this study aimed to characterize the exometabolome of B. pseudomallei morphotypes and the impact of acute infection on their metabolic characteristics.ConclusionTo our knowledge, this study provides first insights into the basic metabolism of B. pseudomallei and its colony morphotypes. Furthermore, our data suggest, that acute infection leads to the synchronization of B. pseudomallei colony morphology and metabolism through yet unknown host signals and bacterial mechanisms.     

Improved method for expression and isolation of the Mycoplasma hominis arginine deiminase from the recombinant strain of Escherichia coli

Arginine deiminase is a promising anticancer drug active against melanoma, hepatocarcinoma and other tumors. Recombinant strains of Escherichia coli that express arginine deiminase from pathogenic bacteria Mycoplasma have been developed. However, production costs of heterologous arginine deiminase are high due to use of an expensive inducer and extraction buffer, as well as using diluted culture for enzyme induction. We report on a new advanced protocol for Mycoplasma hominis arginine deiminase expression, extraction and renaturation. The main improvements include manipulation with dense suspensions of E. coli, use of lactose instead of isopropyl β-d-1-thiogalactopyranoside as an inducer and a cheaper but not less efficient buffer for solubilization of arginine deiminase inclusion bodies. In addition, supplementation of the storage culture medium with glucose and substrate (arginine) significantly stabilized the recombinant arginine deiminase producer. Homogenous preparations of recombinant arginine deiminase were obtained using anion-exchange and hydrophobic chromatography. The purified enzyme retained a specific activity of 30–34 U/mg for 12 months when stored at 4 °C in 20 mM sodium phosphate buffer pH 7.2 containing 1 M NaCl.     

Macroautophagy is essential for killing of intracellular Burkholderia pseudomallei in human neutrophils

Neutrophils play a key role in the control of Burkholderia pseudomallei, the pathogen that causes melioidosis. Here, we show that survival of intracellular B. pseudomallei was significantly increased in the presence of 3-methyladenine or lysosomal cathepsin inhibitors. The LC3-flux was increased in B. pseudomallei-infected neutrophils. Concordant with this result, confocal microscopy analyses using anti-LC3 antibodies revealed that B. pseudomallei-containing phagosomes partially overlapped with LC3-positive signal at 3 and 6 h postinfection. Electron microscopic analyses of B. pseudomallei-infected neutrophils at 3 h revealed B. pseudomallei-containing phagosomes that occasionally fused with phagophores or autophagosomes. Following infection with a B. pseudomallei mutant lacking the Burkholderia secretion apparatus Bsa Type III secretion system, neither this characteristic structure nor bacterial escape into the cytosol were observed. These findings indicate that human neutrophils are able to recruit autophagic machinery adjacent to B. pseudomallei-containing phagosomes in a Type III secretion system-dependent manner.     

Consumption of Peptide-derived Arginine by a Periodontopathogenic Bacterium,Porphyromonas gingivalis

The specificity of amino acid consumption by Porphyromonas gingivalis, well known as an important pathogen of adult periodontitis, is described. P. gingivalis is an asaccharolytic, black-pigmented and gram-negative anaerobe and produces several types of proteases including cysteine proteases such as arg-gingipain and trypsin-like enzyme. This suggests that arginine is a possible energy source for its growth. When P. gingivalis was grown anaerobically in brain–heart infusion broth, several free amino acids such as lysine, glycine and glutamic acid increased in the culture supernatant with the bacterial growth; but free arginine increased first and then started to decrease after the early log phase. Citrulline and ornithine increased to late log phase in contrast to the decrease of arginine. The total arginine in the medium decreased steadily with the growth of P. gingivalis. In relation to the arginine consumption, cell extracts of P. gingivalis clearly demonstrated enzyme activities for the arginine deiminase pathway and adenosine triphosphate production. The arginine deiminase pathway was also presumed from the presence of putative homologue corresponding to the other bacterial arginine deiminase pathway relating enzymes in the unfinished P. gingivalis W83 genome. These results suggest that P. gingivalis catabolizes arginine which is released from proteins and/or peptides by several types of proteases, and obtains energy through the arginine deiminase pathway.     

Comparative assessment of the intracellular survival of the Burkholderia pseudomallei bopC mutant

Burkholderia pseudomallei, the causative agent of melioidosis, is a Gram-negative saprophytic bacterium capable of surviving within phagocytic cells. To assess the role of BopC (a type III secreted effector protein) in the pathogenesis of B. pseudomallei, a B. pseudomallei bopC mutant was used to infect J774A.1 macrophage-like cells. The bopC mutant showed significantly reduced intracellular survival in infected macrophages compared to wild-type B. pseudomallei. In addition, the bopC mutant displayed delayed escape from endocytic vesicles compared with the wild-type strain. This indicates that BopC is important, and at least in part, needed for intracellular survival of B. pseudomallei.     

Plasmacytoid dendritic cell bactericidal activity against Burkholderia pseudomallei

Melioidosis sepsis, caused by Burkholderia pseudomallei, is associated with high mortality due to an overwhelming inflammatory response. Plasmacytoid dendritic cells (pDC) are potent producers of type I interferons (IFN). This study investigated whether pDC and type I IFN play a role during the early stages of B. pseudomallei infection. Human and murine pDC internalised and killed B. pseudomallei as efficiently as murine conventional DC (cDC). pDC derived from B. pseudomallei-susceptible (BALB/c) mice demonstrated poor intracellular killing and increased IFN-alpha compared to pDC derived from B. pseudomallei-resistant (C57BL/6) mice. This is the first evidence of pDC bactericidal activity against B. pseudomallei infection.     

Burkholderia pseudomallei survival in lung epithelial cells benefits from miRNA-mediated suppression of ATG10

Burkholderia pseudomallei is the causative agent of melioidosis, a disease with high mortality, which is prevalent in tropical regions of the world. A recent study shows that B. pseudomallei can survive inside mammalian cells because of its ability to actively evade cell autophagy. However, the underlying mechanisms remain unclear. In the present study, based on microarray screening, we found that ATG10 was downregulated following B. pseudomallei infection in A549 human lung epithelial cells. Forced expression of ATG10 accelerated the elimination of intracellular B. pseudomallei by enhancing the process of autophagy. Moreover, MIR4458, MIR4667-5p, and MIR4668-5p were found, by microarray screening, to be upregulated in response to B. pseudomallei infection. These 3 novel miRNAs, MIR4458, MIR4667-5p, and MIR4668-5p, targeted to the 3′-untranslated region of ATG10 in different time-course and spatial manners. Upregulation of these miRNAs reduced the level of ATG10 and inhibited autophagy, leading to increasing survival rate of intracellular B. pseudomallei. Furthermore, the increase of these miRNAs was correlated with the reduced promoter methylation status in A549 cells in response to B. pseudomallei infection. Our results reveal that 3 novel miRNAs regulate autophagy-mediated elimination of B. pseudomallei by targeting ATG10, and provide potential targets for clinical treatment.     

Arginine deiminases: Therapeutic tools in the etiology and pathogenesis of Alzheimer's disease

There is, at present, no definitive pre-mortem diagnostic tool for Alzheimer's disease, (AD) which relates to a poor understanding of its etiology. Brains of AD patients contain large amounts of the toxic plaque-forming β-amyloid_1–42 fragment in addition to elevated concentrations of the amino acid l-arginine. This work proposes that lowering levels of arginine in the astrocytes surrounding amyloid plaques may serve as a therapeutic tool in this neurodegenerative disorder. Arginine deiminase (ADI), from Pseudomonas aeruginosa, and peptidylarginine deiminase [PAD II], from bovine brain, are inhibited by amyloid peptides that contain arginine (amyloid_1–42) and those that have no arginine (amyloid_{12–28/22–35}). Enhanced activity of PAD II is noted with free l-arginine.