Limited diagnostic usefulness of antibodies to cytoplasmic proteins of Brucella in early-treated human brucellosis.

Antibodies to cytoplasmic proteins (CP) of Brucella have been shown to be useful for the diagnosis of human brucellosis; however, some early-diagnosed patients lack such an antibody response while having high titers of antibodies to lipopolysaccharide (LPS). To address which factors determine this serological discrepancy in the early stages of brucellosis we examined the antibody response to CP and LPS of 21 patients involved in an outbreak of B. melitensis infection who had a short duration of clinical illness at diagnosis (3-40 d). At diagnosis, antibodies to LPS (IgM and/or IgG) were found in all patients, while anti-CP antibodies were detected in 16 subjects (76%). At 6 weeks post-diagnosis IgG to CP (with or without IgM) had been detected in 13 patients and IgM alone had been found in 4; however, 4 other patients (19%) had no response to CP. No significant differences were found between these 3 groups in terms of age, gender, antimicrobial agents or factors that could hamper the immune response. Notably, however, the 4 non-responders and 3 of the 4 patients having only IgM to CP had started antibiotic therapy within 14 d post-symptoms, while treatment was started later in 9 of 13 patients who developed anti-CP IgG. In addition, maximum titers of IgG to CP tended to be lower in early-treated patients. These results suggest that very early antibiotic therapy hampers the antibody response to Brucella CP but has little impact on the anti-LPS response. Given the higher specificity of the former and the higher sensitivity of the latter, both reactivities should be measured in order to diagnose human brucellosis.

Single-shot plasmid DNA intrasplenic immunization for the production of monoclonal antibodies. Persistent expression of DNA.

Monoclonal antibodies (Mc. Abs.) were generated against a 18-kDa protein from Brucella abortus 48 h and 25 days after a single intrasplenic injection of a DNA plasmid containing the expression vector for the protein. Hybridomas were also obtained from spleens injected 3, 5, and 10 days before fusion. Somatic cell fusion of spleen cells from mice, injected with the plasmid DNA, in saline, with the NS-0 myeloma cell line resulted in Mc. Abs of the IgG and IgM Isotypes. IgG antibodies were of the IgG2b and IgG1 subtype. Hybridoma tissue culture supernatants were strongly positive by ELISA at dilutions of up to 1/1200 and produced intense specific bands in immunoblotting. All these antibodies recognized the native recombinant protein (the screening antigen) and some of them also recognized the heat-denatured recombinant 18-kDa protein. When compared to standard procedures of immunization, as well as to intramuscular or gene gun DNA immunizations, this technique results in very early, time saving, strong Mc Abs. It is common knowledge that in order to generate specific hybridomas; spleen cells from immunized animals have to be fused no later than 5 days after the last boost. The fact that through single-shot intrasplenic immunization (SSI) specific hybridomas are generated 25 days after one single injection indicates that the gene coding the p18 protein is being expressed in the spleen for at least 20 days. We propose that plasmid DNA intrasplenic immunization can be a helpful tool for the production of specific hybridomas. This route of immunization could also be helpful in the further understanding of early events of the immune response to genetic immunization by naked DNA injection.

Structural, functional and immunological studies on a polymeric bacterial protein.

The characterization of proteins from Brucella spp, the causative agent of brucellosis, has been the subject of intensive research. We have described an 18-kDa cytoplasmic protein of Brucella abortus and shown the potential usefulness of this protein as an antigen for the serologic diagnosis of brucellosis. The amino acid sequence of the protein showed a low but significant homology with that of lumazine synthases. Lumazine is an intermediate product in bacterial riboflavin biosynthesis. The recombinant form of the 18-kDa protein (expressed in E. coli) folds like the native Brucella protein and has lumazine-synthase enzymatic activity. Three-dimensional analysis by X-ray crystallography of the homolog Bacillus subtilis lumazine synthase has revealed that the enzyme forms an icosahedral capsid. Recombinant lumazine synthase from B. abortus was crystallized, diffracted X rays to 2.7-A resolution at room temperature, and the structure successfully solved by molecular replacement procedures. The macromolecular assembly of the enzyme differs from that of the enzyme from B. subtilis. The Brucella enzyme remains pentameric (90 kDa) in its crystallographic form. Nonetheless, the active sites of the two enzymes are virtually identical at the structural level, indicating that inhibitors of these enzymes could be viable pharmaceuticals across a broad species range. We describe the structural reasons for the differences in their quaternary arrangement and also discuss the potential use of this protein as a target for the development of acellular vaccines.

Structural, functional and immunological studies on a polymeric bacterial protein

The characterization of proteins from Brucella spp, the causative agent of brucellosis, has been the subject of intensive research. We have described an 18-kDa cytoplasmic protein of Brucella abortus and shown the potential usefulness of this protein as an antigen for the serologic diagnosis of brucellosis. The amino acid sequence of the protein showed a low but significant homology with that of lumazine synthases. Lumazine is an intermediate product in bacterial riboflavin biosynthesis. The recombinant form of the 18-kDa protein (expressed in E. coli) folds like the native Brucella protein and has lumazine-synthase enzymatic activity. Three-dimensional analysis by X-ray crystallography of the homolog Bacillus subtilis lumazine synthase has revealed that the enzyme forms an icosahedral capsid. Recombinant lumazine synthase from B. abortus was crystallized, diffracted X rays to 2.7-A resolution at room temperature, and the structure successfully solved by molecular replacement procedures. The macromolecular assembly of the enzyme differs from that of the enzyme from B. subtilis. The Brucella enzyme remains pentameric (90 kDa) in its crystallographic form. Nonetheless, the active sites of the two enzymes are virtually identical at the structural level, indicating that inhibitors of these enzymes could be viable pharmaceuticals across a broad species range. We describe the structural reasons for the differences in their quaternary arrangement and also discuss the potential use of this protein as a target for the development of acellular vaccines.

Divergence in macromolecular assembly: X-ray crystallographic structure analysis of lumazine synthase from Brucella abortus.

We have determined the three-dimensional structure of 6, 7-dimethyl-8-ribityllumazine synthase (lumazine synthase) from Brucella abortus, the infectious organism of the disease brucellosis in animals. This enzyme catalyses the formation of 6, 7-dimethyl-8-ribityllumazine, the penultimate product in the synthesis of riboflavin. The three-dimensional X-ray crystal structure of the enzyme from B. abortus has been solved and refined at 2.7 A resolution to a final R-value of 0.18 (R(free)=0.23). The macromolecular assembly of the enzyme differs from that of the enzyme from Bacillus subtilis, the only other lumazine synthase structure known. While the protein from B. subtilis assembles into a 60 subunit icosahedral capsid built from 12 pentameric units, the enzyme from B. abortus is pentameric in its crystalline form. Nonetheless, the active sites of the two enzymes are virtually identical indicating inhibitors to theses enzymes could be effective pharmaceuticals across a broad species range. Furthermore, we compare the structures of the enzyme from B. subtilis and B. abortus and describe the C teminus structure which accounts for the differences in quaternary structure.

Lack of significant differences in association rates and affinities of antibodies from short-term and long-term responses to hen egg lysozyme.

The affinities (Ka) and association rate constants (kon) of 23 mouse (BALB/c) anti-lysozyme mAbs obtained after short and prolonged immunizations have been measured by plasmon resonance techniques. The affinities for the 23 Abs, measured using their Fab, range from Ka = 1.1 x 10(7) to 1.4 x 10(10) M-1. There is no significant correlation between time or dose of immunization and affinity or association rates, indicating no time- or dose-dependent maturation of the response within the doses and times that were explored. IgMs are produced early and late in the response, with intrinsic affinities <10(5) M-1. Two independently derived mAbs, D44.1 (short term) and F10.6.6 (from a longer term response), result from identical or nearly identical somatic recombination events of germline gene segments. F10.6.6 has more mutations and a higher affinity constant (Ka = 1.4 x 10(10) M-1) than D44.1 (Ka = 1.1 x 10(7) M-1). Although higher affinities may result from an accumulation of mutations, they do not correlate with the length and dose of immunogenic challenge.

Crystallization and preliminary x-ray diffraction analysis of the lumazine synthase from Brucella abortus.

Lumazine synthase from Brucella abortus was overexpressed in Escherichia coli, refolded, and purified to apparent homogeneity. Crystals of lumazine synthase were grown by the hanging drop vapor diffusion method using polyethylene glycol 8000 or ammonium sulfate as precipitants. They belong to the trigonal space group P321 with cell parameters a = b = 132.00A, c = 167.25 A. A complete diffraction data set to 3.7 A resolution has been collected using synchrotron radiation. Preliminary analysis of the quaternary structure of this protein by means of a self-rotation function calculated with the diffraction data clearly indicates 532 symmetry compatible with the presence of an icosahedral lumazine synthase particle.

Characterization of anti-anti-idiotypic antibodies that bind antigen and an anti-idiotype.

Two mouse monoclonal anti-anti-idiotopic antibodies (anti-anti-Id, Ab3), AF14 and AF52, were prepared by immunizing BALB/c mice with rabbit polyclonal anti-idiotypic antibodies (anti-Id, Ab2) raised against antibody D1.3 (Ab1) specific for the antigen hen egg lysozyme. AF14 and AF52 react with an "internal image" monoclonal mouse anti-Id antibody E5.2 (Ab2), previously raised against D1.3, with affinity constants (1.0 x 10(9) M-1 and 2.4 x 10(7) M-1, respectively) usually observed in secondary responses against protein antigens. They also react with the antigen but with lower affinity (1.8 x 10(6) M-1 and 3.8 x 10(6) M-1). This pattern of affinities for the anti-Id and for the antigen also was displayed by the sera of the immunized mice. The amino acid sequences of AF14 and AF52 are very close to that of D1.3. In particular, the amino acid side chains that contribute to contacts with both antigen and anti-Id are largely conserved in AF14 and AF52 compared with D1.3. Therapeutic immunizations against different pathogenic antigens using anti-Id antibodies have been proposed. Our experiments show that a response to an anti-Id immunogen elicits anti-anti-Id antibodies that are optimized for binding the anti-Id antibodies rather than the antigen.

Humoral immune response against lipopolysaccharide and cytoplasmic proteins of Brucella abortus in cattle vaccinated with B. abortus S19 or experimentally infected with Yersinia enterocolitica serotype 0:9.

The humoral immune responses against three different antigens of Brucella abortus were monitored by enzyme-linked immunosorbent assay in cattle vaccinated with B. abortus S19 or experimentally infected with Yersinia enterocolitica serotype 0:9. Immunoglobulin G (IgG) and IgM responses against (i) B. abortus lipopolysaccharide (LPS), (ii) total cytoplasmic proteins depleted of LPS (LPS-free CYT), and (iii) B. abortus 18-kDa cytoplasmic protein were measured. Vaccinated animals and Yersinia-infected animals developed high anti-LPS IgM and IgG titers, which overlapped with those obtained with sera from B. abortus 544-infected animals used as positive controls. In contrast, only a slight or negative IgG and IgM response against LPS-free CYT and the 18-kDa protein was detected in vaccinated or Yersinia-infected cattle, although its levels were always significantly lower than those of B. abortus 544-infected animals. These data indicate that cytoplasmic proteins of B. abortus could be useful for the differential diagnosis of bovine brucellosis.