Structural analysis of Francisella tularensis lipopolysaccharide.

The structure of the lipid A and core region of the lipopolysaccharide (LPS) from Francisella tularensis (ATCC 29684) was analysed using NMR, mass spectrometry and chemical methods. The LPS contains a beta-GlcN-(1-6)-GlcN lipid A backbone, but has a number of unusual structural features; it apparently has no substituent at O-1 of the reducing end GlcN residue in the lipid part in the major part of the population, no substituents at O-3 and O-4 of beta-GlcN, and no substituent at O-4 of the Kdo residue. The largest oligosaccharide, isolated after strong alkaline deacylation of NaBH4 reduced LPS had the following structure: where Delta-GalNA-(1-3)-beta-QuiNAc represents a modified fragment of the O-chain repeating unit. Two shorter oligosaccharides lacking the O-chain fragment were also identified. A minor amount of the disaccharide beta-GlcN-(1-6)-alpha-GlcN-1-P was isolated from the same reaction mixture, indicating the presence of free lipid A, unsubstituted by Kdo and with phosphate at the reducing end. The lipid A, isolated from the products of mild acid hydrolysis, had the structure 2-N-(3-O-acyl4-acyl2)-beta-GlcN-(1-6)-2-N-acyl1-3-O-acyl3-GlcN where acyl1, acyl2 and acyl3 are 3-hydroxyhexadecanoic or 3-hydroxyoctadecanoic acids, acyl4 is tetradecanoic or (minor) hexadecanoic acids. No phosphate substituents were found in this compound. OH-1 of the reducing end glucosamine, and OH-3 and OH-4 of the nonreducing end glucosamine residues were not substituted. LPS of F. tularensis exhibits unusual biological properties, including low endoxicity, which may be related to its unusual lipid A structure.     

The C antigen of Francisella tularensis]

A new envelope antigen C, specific for virulent strains of Francisella tularensis, was revealed by immunodiffusion analysis. In contrast to antigens A and P this antigen is common for Francisella and Brucella. C-antigenic lipid fraction was obtained by chloroform-ethanol (1:1) extraction of bacterial slime. This fraction contained carbohydrates (31.6%) without proteins and detected by TLC glycolipid, which proved glycolipid nature of C-antigen. Introduction of C-fraction or alive F. tularensis resulted in accumulation of C. precipitins in blood serum.     

Immunogenicity and toxicity of lipopolysaccharide from Francisella tularensis LVS

Abstract Lipopolysaccharide (LPS) from the live vaccine strain of Francisella tularensis ( F . tularensis LVS) was isolated and purified. The LPS did not stimulate lymphocytes from previously tularaemia-vaccinated individuals or lymphocytes from nonprimed individuals. However, serum antibodies from tularaemia vaccines reacted with the LPS whereas virtually no reactivity was found with antibodies from individuals not exposed to F. tularensis LVS. Antibodies of immunoglobulin class M displayed the antibody reactivity predominantly. The LPS failed to induce the mononuclear cell-derived cytokine interleukin-1 and only low levels of tumour necrosis factor were detected. Furthermore, no LPS endotoxin properties were found in galactosamine-treated mice or in the Limulus amoebocyte lysate assay. From these results it can be concluded that F. tularensis LVS possesses a lipopolysaccharide-like molecule, which does not exhibit properties of a classical endotoxin.     

The use if Francisella tularensis lipopolysaccharide in the dot solid phase enzyme immunoassay

To determine antitularemia antibodies in the sera of humans and animale, the possibility of using dot immunoassay with the use of F. tularensis lipopolysaccharide (LPS) as antigen-containing preparation was ascertained. Experiments demonstrated that this method made it possible to determine specific antitularemia antibodies in the sera of sick and immunized humans and animals. Investigetions carried out with the use of heterologous antisera to F. novicida, F. novicida-like and F. philomiragia, as well as Brucellf abortus, Vibrio cholerae and Yersinia enterocolitica, revealed that F. tularensis S-LPS was highly specific. The results obtained in this investigation are indicative of good prospects of using F. tularensis LPS in dot blotting for the laboratory diagnostics of tularemia in humans.     

Effect of antibiotics on Francisella tularensis]

The minimum inhibitory concentrations of rifampicin, doxycycline, sisomicin, ciprofloxacin and phosmidomycin for various strains of Francisella tularensis were 0.5 to 2.0, 0.5 to 2.0, 0.125 to 0.4, 0.625 to 0.125 and 2.0 to 12.5 micrograms/ml, respectively. Ciprofloxacin and sisomicin had a marked bactericidal effect. The bactericidal effect of rifampicin was insignificant. Doxycycline and phomidomycin had practically no such effect. All the antibiotics had a post effect. The level of the post-antibiotic effect was different and depended on the antibiotic concentration.     

The LPS-protein complex from the outer membrane of Francisella tularensis]

LPS-protein complex containing proteins of 15 kD, 17 kD and 19 kD was isolated from F. tularensis outer membrane by solving with sodium deoxycholate with the subsequent gel filtration on Sephacryl S-200. Protein of 17 kD constituted the main protein component of the complex. The LPS-protein ratio of this complex was 1:1. Proteins contained in LPS-protein complex have mainly the alpha-spiral structure. In the absence of detergent these proteins and LPS formed micelles with molecular weight exceeding 10(7) D. LPS-protein complex was shown to have a protective effect in mice infected with F. tularensis virulent strain 503.     

Phase variations of Francisella tularensis lipopolysaccharide in human infection and immunization

The comparative study of the specificity of antibodies in human sera after tularemia infection and immunization with live tularemia infection was carried out with the use of passive hemagglutination and immunoblotting techniques. The sera of tularemia patients contained two different types of immunoglobulins: strictly specific to the antigenic epitopes of F. tularensis Iipopolysaccharide (LPS) and strictly specific to F. tularensis subsp. novicida LPS. Such phenomenon may be due to phase variations of the antigenic structure of F. tularensis LPS in the body of a slightly susceptible host. The immune sera of vaccinated were found to contain antibodies, strictly specific only to F. tularensis LPS. At the same time in one vaccinee by the presence of pronounced postvaccinal reactions was found sharply defined interaction between serum imunoglobulins and F. tularensis subsp. novicida LPS. As the result, the data on the possibility of the antigenic modification of F. tularensis in tularemia infection in humans were obtained. At the same time antigenic epitopes, characteristic of faintly pathogenic and closely related F. tularensis novicida LPS, appeared in the structure of F. tularensis LPS.     

Characterization of high affinity monoclonal antibodies specific for chlamydial lipopolysaccharide

Pathogens belonging to the genus Chlamydia contain lipopolysaccharide with a 3-deoxy-D- manno- oct-2-ulosonic acid (Kdo) trisaccharide of the sequence alpha-Kdo-(2-->8)-alpha-Kdo-(2-->4)-alpha-Kdo. This lipopolysaccharide is recognized in a genus-specific pattern by murine monoclonal antibodies (mAbs), S25-23 and S25-2 (both IgG1kappa), which bind as the minimal structures the trisaccharide and the terminal Kdo-disaccharide, respectively. The variable domains of these mAbs were reverse transcribed from mRNA which was isolated from hybridomas and cloned as single-chain variable fragments (scFvs) in E.coli TG1. The kinetics of binding of whole antibodies, Fab fragments and scFvs to natural and synthetically modified ligands were determined by surface plasmon resonance (SPR) using synthetic neoglycoconjugates. As examples of an antibody-carbohydrate interaction involving anionic carboxyl groups on the ligand, we report that the affinities of these antibodies are higher than usually observed in carbo-hydrate-protein interactions (K(D)of 10(-3)to 10(-5)M). SPR analy-ses of monovalent Fab and scFv binding to the natural trisaccharide epitope gave dissociation constants of 770 nM for S25-2 and 350 nM for S25-23, as determined by global fitting (simultaneous fitting of several measurements at different antibody concentrations) of sensorgram data to a one-to-one interaction model. Local fitting (separate fitting of individual sensorgram data at different antibody concentrations) and Scatchard analysis of the data gave kinetic and affinity constants that were in good agreement with those obtained by global fitting. The SPR data also showed that while S25-2 bound well to several Kdo disaccharides and carboxyl-reduced Kdo ligands, S25-23 did not. Identification of amino acids in the complementarity determining regions revealed the presence of a large number of positively charged amino acids which were located towards the center of the combining site, thus suggesting a different recognition mechanism than that observed for neutral ligands. The latter mainly involves aromatic amino acids for hydrophobic stacking inter-actions and hydrogen bonds.     

Prevalence of antibodies to Francisella tularensis in forest workers from different regions of Poland

In the present study we evaluate the prevalence of antibodies to F. tularensis in 480 serum samples obtained from healthy forest workers from different regions of Poland. The investigations were performed using the tube agglutination test and ELISA. The cut-off limit of serum antibodies was set at mean antibody titre determined in the sera of 115 blood donors exceeded by three standard deviations. In none serum samples we detected antibodies to F. tularensis by tube agglutination test. Of the 480 tested sera IgA antibodies were detected by ELISA in 4.6%, antibodies IgG in 3.8% and antibodies IgM in 2.70% serum samples. The results of our study showed that antibodies to F. tularensis were slightly, but not statistically significant, more often diagnosed in healthy forest workers than healthy blood donors.     

Real time PCR hybridization for the rapid and specific identification of Francisella tularensis

Tularemia is highly infectious and fatal zoonotic disease caused by Gram negative bacteria Francisella tularensis. The necessity to undergo medical treatment in early phase of illness in humans and possibility of making use of bacterial aerosol by terrorists in an attack create an urgent need to implement a rapid and effective method which enables to identify the agent. In our study two primers FopA F/R and hybridization probes FopA S1/S2 designed from fopA gene sequence, were tested for their potential applicability to identify F. tularensis. In this research 50 strains of F. tularensis were used and the test gave positive results. Reaction specificity was confirmed by using of non-Francisella tularensis bacterial species. The results obtained in the real-time PCR reaction with primers Tul4 F/R and hybridization probes Tul4 S1/S2, designed from tul4 gene, were comparable to the results from previous experiment with fopA - primers set. Investigation of fopA and tul4 primers and hybridization probes properties revealed characteristic Tm (melting temperature) value of the products--61 degrees C and 60 degrees C, respectively. Detection sensitivity was remarkably higher when fopA primers set was used 1 fg/microl, and for tul4 primers set, minimal detectable concentration is 10 fg/microl.     

Persistence factors of Francisella tularensis

The study of the persistence potential of 64 F. tularensis strains isolated from different sources was carried out. The wide spread of the antilysozyme, antilactoferrin and anticomplementory activities of F. tularensis were detected. F. tularensis, isolated from ticks and water, were characterized by the highest level of the expression of antilysozyme activity, while anticomplementory and antilactoferrin activities of the infective agents were characteristic of those microorganisms which were isolated from rodents and their excrements.     

Features of the interaction of Escherichia coli and Francisella tularensis RNA polymerases with hybrid plasmids bearing fragments of Francisella tularensis chromosomal DNA]

Hybrid plasmids containing the fragments of Francisella tularensis chromosomal DNA and capable of tet-gene expression both in Escherichia coli and Francisella tularensis cells were constructed. The regions of francisella chromosomal DNA binding the RNA-polymerases of Escherichia coli and Francisella tularensis were found by the electron microscopy technique. Interconnection of those regions with the expression of tet-gene of the hybrid plasmids was demonstrated.     

Chlorine disinfection of Francisella tularensis

Aims: To determine the range of free available chlorine (FAC) required for disinfection of the live vaccine strain (LVS) and wild‐type strains of Francisella tularensis. Methods and Results: Seven strains of planktonic F. tularensis were exposed to 0·5 mg·l^?1 FAC for two pH values, 7 and 8, at 5 and 25°C. LVS was inactivated 2 to 4 times more quickly than any of the wild‐type F. tularensis strains at pH 8 and 5°C. Conclusions: Free available chlorine residual concentrations routinely maintained in drinking water distribution systems would require up to two hours to reduce all F. tularensis strains by 4 log₁₀. LVS was inactivated most quickly of the tested strains. Significance and Impact of the Study: This work provides contact time (CT) values that are useful for drinking water risk assessment and also suggests that LVS may not be a good surrogate in disinfection studies.     

Noncultivatable forms of Francisella tularensis

Conditions for the appearance of F. tularensis uncultivated forms and for their reversion into the initial state have been studied. As revealed in this study, the combined influence of stress factors (starvation and low temperature) may result in the transition of F. tularensis into the uncultivated state in which it persists in the environment during the period between epidemics. The reversion of F. tularensis uncultivated forms into the initial state has been carried out with the use of sensitive animals. The uncultivated state of F. tularensis should be regarded as the actual form of the existence of the causative agent of tularemia in soil and water ecosystems.     

Population structure of Francisella tularensis

We have sequenced fragments of five metabolic housekeeping genes and two genes encoding outer membrane proteins from 81 isolates of Francisella tularensis, representing all four subspecies. Phylogenetic clustering of gene sequences from F. tularensis subsp. tularensis and F. tularensis subsp. holarctica aligned well with subspecies affiliations. In contrast, F. tularensis subsp. novicida and F. tularensis subsp. mediasiatica were indicated to be phylogenetically incoherent taxa. Incongruent gene trees and mosaic structures of housekeeping genes provided evidence for genetic recombination in F. tularensis.     

Glycosylation of DsbA in Francisella tularensis subsp. tularensis

In Francisella tularensis subsp. tularensis, DsbA has been shown to be an essential virulence factor and has been observed to migrate to multiple protein spots on two-dimensional electrophoresis gels. In this work, we show that the protein is modified with a 1,156-Da glycan moiety in O-linkage. The results of mass spectrometry studies suggest that the glycan is a hexasaccharide, comprised of N-acetylhexosamines, hexoses, and an unknown monosaccharide. Disruption of two genes within the FTT0789-FTT0800 putative polysaccharide locus, including a galE homologue (FTT0791) and a putative glycosyltransferase (FTT0798), resulted in loss of glycan modification of DsbA. The F. tularensis subsp. tularensis ΔFTT0798 and ΔFTT0791::Cm mutants remained virulent in the murine model of subcutaneous tularemia. This indicates that glycosylation of DsbA does not play a major role in virulence under these conditions. This is the first report of the detailed characterization of the DsbA glycan and putative role of the FTT0789-FTT0800 gene cluster in glycan biosynthesis.     

Detection of persistent resistance to antibacterial drugs in various strains of Francisella tularensis]

Under natural conditions, the Francisella tularensis strains AE-261 and P-13864 capable of forming the persist type of resistance to antibacterial drugs and being the cause of the infection in laboratory animals not responding to monotherapy with antibiotics were detectable. The antibioticograms of strains AE-261 and P-13864 under the in vitro conditions did not differ from those of the other studied strains responding to the antibiotic therapy. The observed phenomenon could be associated with individual peculiarities of the strains and their phenotypic variation in the host. Combinations of aminoglycoside antibiotics (streptomycin, gentamicin and amikacin) with rifampicin were shown to be highly active in the treatment of general forms of the infection due to such strains. The combined therapy of tularemia was also considered promising because of its high efficacy when the treatment was started at late periods as well as because unlike the monotherapy with the aminoglycoside antibiotics it provided complete elimination of the pathogen from the host.