Outer membrane protein a and other polypeptides regulate capsular polysaccharide synthesis in E. coli K-12.

Summary capR (lon) mutants of Escherichia coli K-12 are mucoid on minimal agar because they produce large quantities of capsular polysaccharide. When such mutants are transformed to tetracycline resistance by plasmid pMC44, a hybrid plasmid that contains a 2 megadalton (Mdal) endonuclease EcoR1 fragment of E. coli K-12 DNA joined to the cloning vehicle-pSC101, capsular polysaccharide synthesis is inhibited and the transformed colonies exhibit a nonmucoid phenotype. Re-cloning of the 2 Mdal EcoR1 fragment onto plasmid pHA105, a min-colE1 plasmid, yielded plasmid pFM100 which also inhibited capsular polysaccharide synthesis in the capR mutants. A comparison of the polypeptides specified by both plasmids pFM100 and pMC44 in minicells demonstrated that seven polypeptide bands were specified by the 2 Mdal DNA, one of which was previously demonstrated to be outer membrane protein a; also known as 3b or M2 (40 kilodaltons, Kdal). Plasmid mutants no longer repressing capsular polysaccharide synthesis were either unable to specify the 40 K dal outer membrane protein a or were deficient in synthesis of 25 K dal and 14.5 K dal polypeptides specified by the 2 Mdal DNA fragment. Studies with a minicell-producing strain that also contained a capR mutation indicated that the capR gene product regulated processing of at least one normal protein, the precursor of outer membrane protein a.     

Phospholipid substitution of capsular polysaccharides and mechanisms of capsule formation in Neisseria meningitidis

Within the capsule gene complex (cps) of Neisseria meningitidis two functional regions B and C are involved in surface translocation of the cytoplasmically synthesized capsular polysaccharide, which is a homopolymer of α-2,8 polyneuraminic acid. The region-C gene products share characteristics with transporter proteins of the ABC (ATP-binding cassette) superfamily of active transporters. For analysis of the role of region B in surface translocation of the capsular polysaccharide we purified the polysaccharides of region B- and region C-defective Escherichia coli clones by affinity chromatography. The molecular weights of the polysaccharides were determined by gel filtration and the polysaccharides were analysed for phospholipid substitution by polyacrylamide gel electrophoresis and immunoblotting. The results indicate that the full-size capsular polysaccharide with a phospholipid anchor is synthesized intracellularly and that lipid modification is a strong requirement for translocation of the poly saccharide to the cell surface. Proteins encoded by region B are involved in phospholipid substitution of the capsular polysaccharide. Nucleotide sequence analysis of region B revealed two open reading frames, which encode proteins with molecular masses of 45.1 and 48.7 kDa.     

Immunomodulative properties of conjugates composed of detoxified lipopolysaccharide and capsular polysaccharide of <Emphasis Type="Italic">Vibrio cholerae</Emphasis> O135 bound to BSA-protein carrier

O135 serotype Vibrio cholerae isolated from Slovak river was used as a source of surface polysaccharide antigens. Following detoxification procedure, fractions of polysaccharides were separated by size exclusion chromatography. Two resultant fractions were the capsular polysaccharide (M _w ∼ 197,000 Da) and the lipopolysaccharide fragment (M _w ∼ 13,300 Da). These materials were used for preparation of four novel glycoconjugates. Two of them containing detoxified lipopolysaccharide as antigen were prepared by original chemical method using the new biocompatible polymer as carrier of antigen. Additionally, other two conjugates were prepared by direct linking of capsular and detoxified lipopolysaccharide antigens to the protein carrier using adipic acid dihydrazide spacer. The immunogenicities (induced IgM, IgG, IgA antibodies) of all conjugates were determined by enzyme-linked immunosorbent assay. Polymer containing conjugates elicited higher levels of specific anti-lipopolysaccharide IgM and IgG antibodies in comparison with other conjugates without polymer carrier. Enhanced IgM vibriocidal activity of mice antisera was also evident here.     

Further Studies of the Polysaccharide of Klebsiella pneumoniae Possessing Strong Adjuvanticity: I. Production of the Adjuvant Polysaccharide by Noncapsulated Mutant

In culture fluid, Klebsiella pneumoniae type 1 Kasuya strain produces polysaccharide exhibiting a strong adjuvant effect. The active substance responsible for the strong adjuvant effect of the polysaccharide is not its acidic polysaccharide fraction (the type-specific capsular antigen) but the neutral polysaccharide fraction. In the present study, a mutant which did not produce the type-specific capsular polysaccharide was isolated from ultraviolet-irradiated cells of K. pneumoniae type 1 Kasuya strain which had been labeled with leucine-requiring marker by selecting unagglutinable cells with the antiserum to the type-specific capsular polysaccharide. Serological tests showed that the type-specific acidic capsular polysaccharide was present neither on the cells surface nor in the culture fluid of the mutant. Electron microscopically, the mutant did not possess any capsular material. On the other hand, nearly an equal amount of neutral polysaccharide antigen was produced in culture fluids of the noncapsulated mutant and the parent strain. The neutral polysaccharide antigen produced by the noncapsulated mutant exhibited the same degree of strong adjuvant effect on antibody response to bovine gammaglobulin in mice as that produced by the parent strain. The relationship between the neutral polysaccharide antigen in culture fluid and the O antigen of K. pneumoniae was discussed.     

Immunochemistry of antigens from aerobically and anaerobically grownStaphylococcus aureus

Immunochemical analyses of the major cell-wall antigens (teichoic acid, mucopeptide, and protein A) demonstrated quantitative but not qualitative differences between these antigens prepared from aerobically and anaerobically grownStaphylococcus aureus 7167. The reduced rate of oxygen uptake observed in anaerobically grownS. aureus 7167, indicating a repressed electron transport system and a reduction in the number of proteins (enzymes) associated with this system, was interpreted as evidence for the significant reduction in the number of protein antigens observed in immunochemical analyses of cell homogenate and intracellular antigen fractions prepared from anaerobically grown cells. Immunoelectrophoretic analyses indicated that a quantitatively greater amount of polysaccharide capsular material was obtained from anaerobically grownS. aureus 7167, and a relationship betweenin vivo pathogenicity and anaerobiosis was proposed.     

Conversion of Capsular Polysaccharide,Involved in Pellicle Formation,to Extracellular Polysaccharide by galE Deletion in Acetobacter tropicalis

Acetobacter tropicalis SKU1100 produces a pellicle-forming capsular polysaccharide (CPS), consisting of galactose, glucose, and rhamnose. We cloned the galE gene, a UDP-galactose synthesis gene, from A. tropicalis SKU1100 by PCR. A galE-disruptant was prepared and found not to produce CPS and thus not to form a pellicle under the static condition. Instead, the ΔgalE mutant secreted an extracellular polysaccharide (EPS), which was purified and found to have a unique character, different from the original CPS.     

Capsular polysaccharides and lipopolysaccharides from two Bacteroides fragilis reference strains: chemical and immunochemical characterization.

Fermentor growth of Bacteroides fragilis under controlled conditions in a complex medium containing 1% glucose and 10% fetal calf serum resulted in high yields of bacteria. After hot phenol-water extraction of the organisms, capsular polysaccharide was isolated from the aqueous phase and purified by Sephacryl S-300 chromatography in a buffer with 3% sodium deoxycholate. Lipopolysaccharide was isolated by phenol-chloroform-light petroleum ether extraction. The capsular polysaccharide from B. fragilis strain NCTC 9343 contained six sugars: L-fucose, D-galactose, D- and L-quinovosamine, D-glucosamine, and galacturonic acid. The capsule of strain ATCC 23745 also contained D-glucose, L-fucosamine, L-rhamnosamine, and a 3-amino-3,6-dideoxyhexose but lacked D-quinovosamine. The latter capsule also contained alanine (4%). The capsular polysaccharides were different immunochemically by ELISA inhibition. The lipopolysaccharide of both strains contained the same sugars (L-rhamnose, D-glucose, D-galactose, and D-glucosamine) and fatty acids (13-methyl-tetradecanoic and 3-hydroxy-hexadecanoic and 3-hydroxy-15 methyl-hexadecanoic as major constituents) and were identical by ELISA inhibition.     

Fusarium verticillioides (Saccardo) Nirenberg Associated with Hardlock of Cotton

The development of new immune potentiators for human vaccines is an important and expanding field of research. In the present study, the ability of the capsular polysaccharide from Neisseria meningitidis serogroup A (CPS-A), a mannose-containing carbohydrate, to enhance the antibody production against a co-administered model vaccine antigen, is examined. A protein-meningococcal serogroup C capsular polysaccharide (CPS-C) conjugate was selected as the model antigen for this study. After subcutaneous immunization of Balb/C mice, the conjugate mixed with CPS-A induced higher anti-CPS-C IgG and IgG_2a antibody levels and higher anti-meningococcal serogroup C bactericidal titers than the conjugate alone or mixed with CPS-C. The immuno-stimulatory properties exhibited by CPS-A and the fact that vaccines based on purified CPS-A has been safely used during decades to fight the serogroup A meningococcal disease, support the proposal to use CPS-A as immune potentiator for human vaccination studies.     

一种新的CTAB加入方法对A群脑膜炎球菌荚膜多糖分子大小的影响

目的探讨CTAB不同的加入方法对A群脑膜炎球菌荚膜多糖分子大小的影响。方法采用分次加入手动搅拌和持续加入机械快速搅拌两种CTAB加入方法,纯化获得荚膜多糖粗糖,分别编为B组和C组。将两组荚膜多糖粗糖分别纯化获得精糖,分别编为D组和E组。以Sepharose CL-4B凝胶层析纯化获得荚膜多糖并检测其KD值。结果 B组荚膜多糖粗糖的KD值介于0.34~0.35之间,C组荚膜多糖粗糖的KD值介于0.03~0.05,进一步用苯酚纯化获得精糖后KD值D组介于0.34~0.36之间,E组介于0.22~0.28之间。两组相比KD值显著降低。结论CTAB的加入过程对A群脑膜炎球菌荚膜多糖的分子大小有明显的影响,CTAB沉淀时进行快速而充分的搅拌,纯化获得的荚膜多糖相对分子质量更大。     

Characterization of the linkage between the type III capsular polysaccharide and the bacterial cell wall of group B Streptococcus

The capsular polysaccharide of group B Streptococcus is a key virulence factor and an important target for protective immune responses. Until now, the nature of the attachment between the capsular polysaccharide and the bacterial cell has been poorly defined. We isolated insoluble cell wall fragments from lysates of type III group B Streptococcus and showed that the complexes contained both capsular polysaccharide and group B carbohydrate covalently bound to peptidoglycan. Treatment with the endo-N-acetylmuramidase mutanolysin released soluble complexes of capsular polysaccharide linked to group B carbohydrate by peptidoglycan fragments. Capsular polysaccharide could be enzymatically cleaved from group B carbohydrate by treatment of the soluble complexes with beta-N-acetylglucosaminidase, which catalyzes hydrolysis of the beta-D-GlcNAc(1-->4)beta-D-MurNAc subunit produced by mutanolysin digestion of peptidoglycan. Evidence from gas chromatography/mass spectrometry and (31)P NMR analysis of the separated polysaccharides supports a model of the group B Streptococcus cell surface in which the group B carbohydrate and the capsular polysaccharide are independently linked to the glycan backbone of cell wall peptidoglycan; group B carbohydrate is linked to N-acetylmuramic acid, and capsular polysaccharide is linked via a phosphodiester bond and an oligosaccharide linker to N-acetylglucosamine.     

Adjuvant Action of Capsular Polysaccharide of Klebsiella pneumoniae on Antibody Response

A study was made to characterize the active substance for the extraordinarily strong adjuvant effect of the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) type 1 Kasuya strain. CPS-K was fractionated into acidic and neutral CPS-K by the addition of cetyl-pyridinium chloride. Neutral CPS-K exhibited an extremely strong adjuvant effect. The active substance in neutral CPS-K was precipitable when mixed with a rabbit homologous antiserum. The neutral CPS-K antigen was serologically distinct from the O antigen and from the acidic CPS-K which was the type-specific capsular antigen. Among preparations of neutral CPS-K from eight different strains of K. pneumoniae tested, the preparation from only one strain (MH-2) exhibited a strong adjuvant effect comparable to that of the neutral CPS-K from the Kasuya strain. The neutral CPS-Ks from Kasuya and MH-2 strains were antigenically identical. This antigen was not found in all preparations of neutral CPS-Ks obtained from seven different strains. Preparations of acidic CPS-Ks from all strains of K. pneumoniae tested with various serologic types including Kasuya and MH-2 strains were found to exhibit only weak adjuvant effects. The active substance (neutral CPS-K antigen from Kasuya strain) was shown to form a single peak upon analyses by gel filtration (Sephadex G-100) and ultracentrifugation. Sedimentation coefficient of the substance was approximately 20 S at a concentration of 5 mg per ml in 0.1 M NaCl. The active substance finally purified by gel filtration contained 65% sugars (as glucose equivalents), 6.8% hexuronic acids, 2.6% hexosamine, 2.3% proteins, and very small amounts of lipids.     

Capsular and extracellular polysaccharides of the diazotrophic rhizobacterium <Emphasis Type="Italic">Herbaspirillum seropedicae</Emphasis> Z78

The diazotrophic endophyte Herbaspirillum seropedicae Z78 was shown to possess a capsule containing two high-molecular-weight glycolipids, one of which was of a lipopolysaccharide nature. These glycolipids differed considerably in the fatty acid composition of their lipid components. The polysaccharide moiety of these glycans was composed of glucose, galactose, glucosamine, galactosamine, and a noncarbohydrate component, butanetetraol. In the culture liquid of H. seropedicae Z78, an extracellular polysaccharide and an extracellular form of lipopolysaccharide were revealed. Fatty acid composition of the extracellular lipopolysaccharide differed from that of the capsular glycoconjugates; the polysaccharide moiety of exoglycans contained only neutral sugars (mannose, glucose, and galactose) and a tetraatomic alcohol, butanetetraol. It is assumed that structural diversity of polysaccharide-containing polymers at the surface of H. seropedicae Z78 cells is conditioned by their different roles in plant colonization and formation of efficient symbiosis.     

基于可见光测定的山羊支原体山羊肺炎亚种抗原定量

山羊支原体山羊肺炎亚种(Mycoplasma capricolum subsp. capripneumoniae, Mccp)是山羊传染性胸膜肺炎(contagious caprine pleuropneumonia, CCPP)的病原,可用灭活疫苗和荚膜多糖(capsular polysaccharide, CPS)间接血凝试剂进行预防和血清学检测,但高昂的培养成本和复杂的抗原定量一直困扰着生产人员。为解决生产实际中出现的这些问题,本研究基于Mccp代谢组学的前期理论基础,通过改变初始pH值的方法,初步筛选出初始pH值为7.8的可以同时提高2种抗原产量的糖发酵培养基。利用紫外可吸收光谱可识别酚红,以及十六烷基三甲基溴化铵(cetyltrimethylammonium bromide, CTAB)可与阴离子荚膜多糖结合的理论依据,建立了利用紫外光谱分析Mccp达到的培养阶段,以及利用CTAB沉淀法相对定量发酵液荚膜多糖抗原产量的方法。通过紫外图谱观察的方法可对应Mccp生长曲线进行指导生产,大大节省传统颜色变化单位(color change unit, CCU)法的监测时间,提高了原肉眼观察方法的精确度。建立的CTAB沉淀法可在5 h内完成对CPS含量的监测,与传统的差值法相比大大缩短了时间,并且其准确度得到苯酚-硫酸法的验证。本研究优化的一种培养基和建立的两种相关性比较方法,可有效降低Mccp生产成本,提高生产效率,这些方法已在本实验室的研究阶段得到应用,为进一步改进CCPP灭活疫苗和荚膜多糖的生产工艺以及快速定量提供了实验数据。     

Isolation and Characterization of the Serotype g Carbohydrate Moiety from an Enzyme Lysate of Streptococcus mutans 6715 Cell Walls

The serotype-specific carbohydrate moiety of Streptococcus mutans was isolated by mild degradation of purified cell walls with a cell-wall lytic enzyme. Cell walls of serotype g S. mutans strain 6715 were digested with M1 enzyme, an endo-N-acetylmuramidase purified from culture supernatants of Streptomyces globisporus strain 1829. The enzyme lysate of the cell walls was applied to a CM Sephadex C-25 column to remove the M1 enzyme from the cell wall lysate and then subjected to Sephadex G-100 column chromatography. Carbohydrate antigens with serotype g specificity, designated M1g, and a peptidoglycan—polysaccharide complex lacking serotype specificity (M1PG) were separated. Purified serotype g antigen was also obtained by autoclaving the S. mutans 6715 whole cells in saline at 120 C for 30 min. The extract was applied to a DEAE Sephadex A-25 column to remove nucleic acids and teichoic acids. The unbound peak fraction was concentrated and re-chromatographed on a Bio-Gel P-100 column. The void volume fraction contained serotype g carbohydrate and was designated RRg antigen. M1g and RRg antigens formed a band of identity with anti-serotype g serum by immunodiffusion. These antigens were composed mainly of galactose, glucose, and rhamnose at an approximate weight ratio of 8 : 4 : 1, while constituent sugars of M1PG consisted of rhamnose and glucose, with no detectable galactose. M1g also contained peptidoglycan residues other than threonine, an interpeptide bridge component of the native cell wall peptidoglycan. Marked inhibition of the quantitative precipitin reaction between M1g and anti-serotype g serum was obtained with melibiose and galactose, which suggests that the immunodeterminant of the serotype g carbohydrate is an α-linked galactose-glucose terminal linkage.     

Induction of humoral antibody response by soluble polysaccharide of Cryptococcus neoformans

Mice were immunized with purifiedCryptococcus neoformans soluble polysaccharide, or with the polysaccharide coupled to methylated bovine serum albumin or methylated bovine gamma globulin. The polysaccharide-methylated protein complexes were no more immunogenic than the purified polysaccharide when used without Freund's incomplete adjuvant; however, the methylated protein complexes induced higher levels of antibody than purified polysaccharide when emulsified in the adjuvant. Sera from mice were titrated by passive hemagglutination, and maximum antibody titers were observed 14 to 21 days after immunization. Antibody titers declined rapidly after 14 to 21 days in mice immunized with antigen alone; whereas, animals immunized with cryptococcal antigen emulsified in adjuvant remained at peak levels throughout a six week experimental period. All antigens were immunogenic over a wider dosage range when contained in adjuvant. Individual mice immunized with an adjuvant emulsion of purified polysaccharide varied widely in the amount of antibody produced, with some of the animals producing no detectable antibody.     

Novel vaccine strategies to T-independent antigens

T cell independent antigens do not require T cell help to induce an immune response, and are characterized by a lack of immunologic memory. These antigens can be divided into two classes, TI-1 or TI-2. TI-1 antigens, such as bacterial lipopolysaccharide, are potent B-cell mitogens, capable of non-specific, polyclonal activation of B cells. In contrast, TI-2 antigens can only activate mature B cells and consist of highly repetitive structures, such as capsular polysaccharides (CPS) from bacteria. Many vaccines currently in use consist of purified capsular polysaccharides from pathogenic bacteria such as Streptococcus pneumoniae and Neisseria meningitidis. These vaccines are efficacious in immune-competent adults, however, due to their TI-2 nature, are not effective in children <2 years of age. Converting polysaccharides into T cell dependent (TD) antigens, allows children, <2, to produce an effective immune response. This review focuses on various strategies used to convert the immune response to polysaccharide antigens from TI-2 to a TD response. Conjugate vaccines, anti-idiotypic antibodies, phage display library technology and DNA vaccines are discussed.     

Characterization of the lipopolysaccharide O antigens of Actinobacillus pleuropneumoniae serotypes 9 and 11: antigenic relationships among serotypes 9, 11, and 1.

The antigenic lipopolysaccharide O polysaccharides of capsular serotypes 9 and 11 were examined by chemical, immunological, and nuclear magnetic resonance methods. Immunodiffusion tests carried out on these O antigens indicated that both contained common epitopes which were also shared by Actinobacillus pleuropneumoniae serotype 1. Chemical analysis and high-field nuclear magnetic resonance spectroscopy showed that the O antigens of serotypes 9 and 11 were high-molecular-weight polymers consisting of a backbone of repeating trisaccharide units composed of alpha-L-rhamnopyranosyl and alpha-D-glucopyranosyl residues (2:1). One of the alpha-L-rhamnose units forms a branch point and is stoichiometrically substituted with terminal 2-acetamido-2-deoxy-beta-D-glucose residues in the serotype 11 O polysaccharide, but only to the extent of 25% in the serotype 9 O polysaccharide. Thus, the serotype 9 O polysaccharide contains two different repeating units: a tetrasaccharide unit with the same structure as that of the serotype 11 O polysaccharide and a trisaccharide unit: [formula: see text] where R = beta-D-GlcpNAc for serotype 1 and 11 O polysaccharides, and R = H (75%) and R = beta-D-GlcpNAc (25%) for serotype 9. The structure of the previously determined serotype 1 O polysaccharide (E. Altman, J.-R. Brisson, and M. B. Perry, Biochem. Cell. Biol. 64:17-25, 1986) is identical to that of the serotype 11 O polysaccharide. We propose a more complete serotyping scheme for A. pleuropneumoniae which includes designation of both the capsular (K) and O antigens.     

Production of Capsular Polysaccharide of Streptococcus pneumoniae Type 14 and Its Purification by Affinity Chromatography

We describe a rapid and efficient method for producing the capsular polysaccharide of Streptococcus pneumoniae by fermentation on tryptic soy broth and purification of this compound by using immobilized soybean lectin as an affinity adsorbent. In principle, the same strategy can be used to produce purified capsular polysaccharides from other streptococcal serotypes by selecting the appropriate lectin adsorbents.     

Population-Based Analysis of Invasive Nontypeable Pneumococci Reveals That Most Have Defective Capsule Synthesis Genes

Since nasopharyngeal carriage of pneumococcus precedes invasive pneumococcal disease, characteristics of carriage isolates could be incorrectly assumed to reflect those of invasive isolates. While most pneumococci express a capsular polysaccharide, nontypeable pneumococci are sometimes isolated. Carriage nontypeables tend to encode novel surface proteins in place of a capsular polysaccharide synthetic locus, the cps locus. In contrast, capsular polysaccharide is believed to be indispensable for invasive pneumococcal disease, and nontypeables from population-based invasive pneumococcal disease surveillance have not been extensively characterized. We received 14,328 invasive pneumococcal isolates through the Active Bacterial Core surveillance program during 2006–2009. Isolates that were nontypeable by Quellung serotyping were characterized by PCR serotyping, sequence analyses of the cps locus, and multilocus sequence typing. Eighty-eight isolates were Quellung-nontypeable (0.61%). Of these, 79 (89.8%) contained cps loci. Twenty-two nontypeables exhibited serotype 8 cps loci with defects, primarily within wchA. Six of the remaining nine isolates contained previously-described aliB homologs in place of cps loci. Multilocus sequence typing revealed that most nontypeables that lacked capsular biosynthetic genes were related to established non-encapsulated lineages. Thus, invasive pneumococcal disease caused by nontypeable pneumococcus remains rare in the United States, and while carriage nontypeables lacking cps loci are frequently isolated, such nontypeable are extremely rare in invasive pneumococcal disease. Most invasive nontypeable pneumococci possess defective cps locus genes, with an over-representation of defective serotype 8 cps variants.     

Induction of Resistance in Mice by the Capsular Polysaccharide Antigens of Staphylococcus aureus

Mice actively immunized with capsular polysaccharides extracted from capsular type strains A, B, C, and D, determined by the serum-soft agar technique, were protected against lethal infection by homologous strains, but no animals survived infection by heterologous substance immunization even with at high doses. Passive protective antibody in rabbit antisera prepared using these strains was absorbed out only by homologous capsular polysaccharide in mice. These results indicated that resistance was specific for capsular polysaccharide. The substance contained mainly neutral sugar, small amounts of hexosamine, methyl-pentose, and phosphate although these amounts varied depending on the capsular types strains.