Protection against infection with Neisseria meningitidis group B serotype 2b by passive immunization with serotype-specific monoclonal antibody

Liposomes or traditional adjuvants: induction of bactericidal activity by the macrophage infectivity potentiator protein (Mip) of Neisseria meningitidis

Currently, one of the main approaches to achieve a vaccine for serogroup B Neisseria meningitidis is based on outer membrane proteins with low antigenic variability among strains. Since these proteins tend to be minor components of the outer membrane, recombinant production is required to obtain them in sufficient amounts for evaluation and development of vaccines. In this study, we analysed the ability of recombinant macrophage infectivity potentiator (rMip) protein to induce protective bactericidal activity in mice. The rMip protein was cloned from N. meningitidis strain H44/76 and was used to immunise mice, and the sera obtained were tested against the homologous and several heterologous N. meningitidis strains. The sera were obtained using the rMip alone, with adjuvant Al(OH)₃ , or after inclusion into liposomes. Bactericidal activity was variable depending on the strain, although high titres were seen against strains H44/76 and NmP27. Liposomes enhanced fourfold the reactivity against the homologous strain. The results presented suggest that the rMip protein should be considered a promising candidate for the improvement of future protein-based vaccines.

High resolution clear native electrophoresis (hrCNE) allows a detailed analysis of the heterotrimeric structure of recombinant Neisseria meningitidis porins inserted into liposomes

Three recombinant proteins of Neisseria meningitidis, rPorB, rPorA, and rRmpM, were purified and incorporated into liposomes prepared by dialysis-extrusion. The protein complexes formed using different combinations of recombinant proteins were studied by high resolution clear native electrophoresis (hrCNE) and 2-D hrCNE/SDS-PAGE, analyzing the influence of the stoichiometry of the two porins in the formation of complexes and comparing them with native porin complexes present in OMVs from five different N. meningitidis strains. Insertion of the recombinant proteins into liposomes allowed a complete refolding of porin complexes, and the electrophoretic analyses showed that, when the three recombinant proteins are present, the pattern of porin complexes obtained is similar to that observed in native OMVs. We could show homocomplexes of each individual porin and PorA/PorB, RmpM/PorB, and PorA/PorB/RmpM heterocomplexes. Our results suggest that RmpM binds only to PorB, confirm the trimeric structure of N. meningitidis pores, and demonstrate that insertion into liposomes restores the native structure of porin complexes.

Enhanced bacteremia in human factor H transgenic rats infected by Neisseria meningitidis

Neisseria meningitidis binds the complement downregulating protein, factor H (fH), which enables the organism to evade host defenses. Two fH ligands, fHbp and NspA, are known to bind specifically to human fH. We developed a human fH transgenic infant rat model to investigate the effect of human fH on meningococcal bacteremia. At 18 h after intraperitoneal challenge with 560 CFU of group B strain H44/76, all 19 human fH-positive rats had positive blood cultures compared to 0 of 7 human fH-negative control littermates (P < 0.0001). Human fH-positive infant rats also developed bacteremia after challenge with isogenic mutants of H44/76 in which genes encoding fHbp and NspA (ΔfHbp ΔNspA mutant) or the lipooligosaccharide sialyltransferase (Δlst mutant) had been inactivated. A fully encapsulated ΔfHbp ΔNspA Δlst mutant unable to sialylate lipooligosaccharide or bind human fH via the known fH ligands did not cause bacteremia, which argued against global susceptibility to bacteremia resulting from random integration of the transgene into the rat genome. In vitro, the wild-type and ΔfHbp ΔNspA mutant strains were killed by as little as 20% wild-type infant rat serum. The addition of 3 μg of human fH/ml permitted survival of the wild-type strain in up to 60% infant rat serum, whereas ≥33 μg of human fH/ml was required to rescue the ΔfHbp ΔNspA mutant. The ability of meningococci lacking expression of fHbp and NspA to cause invasive disease in human fH transgenic rats and to survive in wild-type infant rat serum supplemented with human fH indicates an additional human fH-dependent mechanism of evasion of innate immunity.

Induction of immune responses by purified outer membrane protein complexes from Neisseria meningitidis

A broad-spectrum vaccine against disease caused by serogroup B of Neisseria meningitidis is still a challenge due to antigenic variability. In the present study outer membrane protein complexes and their components were analysed using non-denaturing 2D electrophoresis and identified using LC/MS-MS and MALDI-TOF. Outer membrane protein complexes were purified from both the wild-type strain H44/76 and their knock-out mutants lacking PorA, PorB, RmpM or FetA. The immune responses elicited by the whole outer membrane vesicles (OMV) and the purified complexes were analysed for bactericidal activity, antibody surface binding, antibody-mediated C3b/iC3b deposition, membrane attack complex (MAC) deposition and induction of opsonophagocytosis, both on the homologous and several heterologous strains. The main antigenic complexes found were homomeric, formed by the 60 kDa chaperonin (MSP63) or PorB, or heteromeric, formed by different combinations of PorA, PorB and/or RmpM. The lack of some of these proteins in the OMVs from the knock-out mutants did not affect significantly the immune responses analysed except MAC, which was significantly reduced in the anti-PorA- and anti-PorB- sera, and bactericidal activity, which was absent in the anti-PorA- serum. The sera against purified native complexes showed variable activities against the homologous strain, with greatest responses observed for anti-chaperonin and anti-PorA/PorB/RmpM sera. When tested against heterologous strains, the only anti-complex serum showing consistent responses was that against the 60 kDa chaperonin. The comparison of the responses elicited by the different sera suggests an important role of conformational epitopes, present only in native complexes, in the induction of more effective responses against N. meningitidis.

Chlamydial infection increases gonococcal colonization in a novel murine coinfection model

Genital tract infections caused by Neisseria gonorrhoeae and Chlamydia trachomatis serovars D to K occur at high incidence in many areas of the world. Despite high rates of coinfection with these pathogens, investigations of host-parasite interactions have focused on each pathogen individually. We describe here a coinfection model in which female BALB/c mice were first infected with the mouse Chlamydia species C. muridarum and then inoculated with N. gonorrhoeae following treatment with water-soluble 17β-estradiol to promote long-term gonococcal infection. Viable gonococci and chlamydiae were recovered for an average of 8 to 10 days, and diplococci and chlamydial inclusions were observed in lower genital tract tissue by immunohistochemical staining. Estradiol treatment reduced proinflammatory cytokine and chemokine levels in chlamydia-infected mice; however, coinfected mice had a higher percentage of vaginal neutrophils compared to mice infected with either pathogen alone. We detected no difference in pathogen-specific antibody levels due to coinfection. Interestingly, significantly more gonococci were recovered from coinfected mice compared to mice infected with N. gonorrhoeae alone. We found no evidence that C. muridarum increases gonococcal adherence to, or invasion of, immortalized murine epithelial cells. However, increased vaginal concentrations of inflammatory mediators macrophage inflammatory protein 2 and tumor necrosis factor alpha were detected in C. muridarum-infected mice prior to inoculation with N. gonorrhoeae concurrently with the downregulation of cathelicidin-related antimicrobial peptide and secretory leukocyte peptidase inhibitor genes. We conclude that female mice can be successfully infected with both C. muridarum and N. gonorrhoeae and that chlamydia-induced alterations in host innate responses may enhance gonococcal infection.

Olfactory nerve--a novel invasion route of Neisseria meningitidis to reach the meninges

Neisseria meningitidis is a human-specific pathogen with capacity to cause septic shock and meningitis. It has been hypothesized that invasion of the central nervous system (CNS) is a complication of a bacteremic condition. In this study, we aimed to characterize the invasion route of N. meningitidis to the CNS. Using an intranasally challenged mouse disease model, we found that twenty percent of the mice developed lethal meningitis even though no bacteria could be detected in blood. Upon bacterial infection, epithelial lesions and redistribution of intracellular junction protein N-cadherin were observed at the nasal epithelial mucosa, especially at the olfactory epithelium, which is functionally and anatomically connected to the CNS. Bacteria were detected in the submucosa of the olfactory epithelium, along olfactory nerves in the cribriform plate, at the olfactory bulb and subsequently at the meninges and subarachnoid space. Furthermore, our data suggest that a threshold level of bacteremia is required for the development of meningococcal sepsis. Taken together, N. meningitidis is able to pass directly from nasopharynx to meninges through the olfactory nerve system. This study enhances our understanding how N. meningitidis invades the meninges. The nasal olfactory nerve system may be a novel target for disease prevention that can improve outcome and survival.

Characterisation and immune responses to meningococcal recombinant porin complexes incorporated into liposomes

We have analysed the structure of meningococcal outer membrane complexes and found that the main complexes are formed by different combinations of PorA and/or PorB molecules, associated to other proteins such as RmpM. In view of the growing knowledge of the importance of conformational epitopes in the immune responses to many pathogens, our aim in this study was to analyse the interactions of PorA and PorB by reconstitution of both recombinant porins into liposomes and determine the relevance of these interactions for the immune response. Recombinant PorA and PorB incorporated into liposomes associate forming complexes that are homomeric when only one of the porins is present, but heteromeric when both neisserial porins are present, mimicking those found previously in native outer membrane vesicles (OMVs). Association of PorA and PorB to form heterocomplexes modifies the immunogenicity of at least PorB, allowing the production of antibodies that recognise conformational epitopes, and produces new epitopes that react with a 50 kDa outer membrane protein not yet identified.

Local and humoral immune responses against primary and repeat Neisseria gonorrhoeae genital tract infections of 17beta-estradiol-treated mice

The 17beta-estradiol-treated mouse model is the only small animal model of gonococcal genital tract infection. Here we show gonococci localized within vaginal and cervical tissue, including the lamina propria, and high numbers of neutrophils and macrophages in genital tissue from infected mice. Infection did not induce a substantial or sustained increase in total or gonococcal-specific antibodies. Mice could be reinfected with the same strain and repeat infection did not boost the antibody response. However, intravaginal immunization of estradiol-treated mice induced gonococcal-specific primary and secondary serum antibody responses. We conclude that similar to human infection, experimental murine infection induces local inflammation but not an acquired immune response or immunological memory.

Cross-linking analysis of antigenic outer membrane protein complexes of Neisseria meningitidis

Polysaccharide-based approaches have not enabled the development of effective vaccines against meningococci of serogroup B, and the most promising current research is focused on the use of outer membrane vesicles. Due to the toxicity of the outer membrane oligosaccharides, new vaccines based on purified proteins are being sought, but despite the application of advanced techniques, they remain elusive, perhaps due to the fact that standard techniques for analysis of antigens overlook conformational epitopes located in membrane complexes. Membrane complex antigens have been analyzed in Neisseria gonorrhoeae, and a study published on Neisseria meningitidis has reported the in vitro formation of 800-kD complexes by deposition of a purified protein (MSP63) onto synthetic lipid layers; however, no studies to date have attempted to identify membrane complexes present in vivo in N. meningitidis. In the present study, cross-linking with formaldehyde was used to identify outer membrane protein associations in various N. meningitidis and Neisseria lactamica strains. In N. meningitides, complexes of about 450 kD (also present in N. lactamica), 165 and 95 kD were detected and shown to be made up of the proteins MSP63, PorA/PorB/RmpM/FetA, and PorA/PorB/RmpM, respectively. In western blots, the 450-kD complex was identified by mouse antibodies raised against outer membrane vesicles, but not by antibodies raised against the purified complex, demonstrating the importance of conformational epitopes, and thus suggesting that the analysis of antigens in their native conformation may be useful or even essential for the design of effective vaccines against meningococci.

Comparison of immune responses to gonococcal PorB delivered as outer membrane vesicles, recombinant protein, or Venezuelan equine encephalitis virus replicon particles

Porin (PorB) is a major outer membrane protein produced by all Neisseria gonorrhoeae strains and has been a focus of intense interest as a vaccine candidate. In this study, the immunogenicity of PorB in mice was investigated after several immunization regimens. Outer membrane vesicles (OMV), recombinant renatured PorB (rrPorB), and PorB-expressing Venezuelan equine encephalitis (VEE) virus replicon particles (PorB VRP) were delivered intranasally (i.n.) or subcutaneously (s.c.) into the dorsal area or the hind footpad in three-dose schedules; the PorB VRP-immunized mice were given a single additional booster dose of rrPorB in Ribi adjuvant. Different delivery systems and administration routes induced different immune responses. Mice immunized s.c. with rrPorB in Ribi had the highest levels of PorB-specific serum immunoglobulin G (IgG) by enzyme-linked immunosorbent assay. Surprisingly, there was an apparent Th1 bias, based on IgG1/IgG2a ratios, after immunization with rrPorB in Ribi in the footpad while the same vaccine given in the dorsal area gave a strongly Th2-biased response. PorB VRP-immunized mice produced a consistent Th1 response with a high gamma interferon response in stimulated splenic lymphocytes and very low IgG1/IgG2a ratios. Immunization by OMV delivered i.n. was the only regimen that resulted in a serum bactericidal response, and it generated an excellent mucosal IgA response. Serum from mice immunized with rrPorB preferentially recognized the surface of whole gonococci expressing a homologous PorB, whereas serum from PorB VRP-immunized mice had relatively low whole-cell binding activity but recognized both heterologous and homologous PorB equally. The data resulting from this direct comparison suggested that important aspects of the immune response can be manipulated by altering the form of the antigen and its delivery. This information coupled with an understanding of protective antigonococcal immune responses will enable the design of the optimal vaccine for N. gonorrhoeae.

Analysis of outer membrane protein complexes and heat-modifiable proteins in Neisseria strains using two-dimensional diagonal electrophoresis

Two-dimensional diagonal SDS-PAGE was used to resolve membrane complexes and identify proteins with temperature-dependent mobility in Neisseria meningitidis and N. lactamica. The main membrane complexes were composed of porins and were formed by heteromers of PorA, PorB and RmpM in N. meningitidis, and by PorB and RmpM in N. lactamica. Also, other proteins, including Opa, with temperature-dependent mobility were clearly demonstrated. The method allows improved detection of the components of membrane complexes and proteins with temperature-dependent mobility which is difficult to resolve with other analytical approaches.

Protective activity of monoclonal antibodies to genome-derived neisserial antigen 1870, a Neisseria meningitidis candidate vaccine

Genome-derived neisserial Ag (GNA) 1870 is a meningococcal vaccine candidate that can be subdivided into three variants based on amino acid sequence variability. Variant group 1 accounts for approximately 60% of disease-producing group B isolates. The Ag went unrecognized until its discovery by genome mining because it is expressed in low copy number by most strains. To investigate the relationship between Ab binding to GNA1870 and complement-mediated protective functions, we prepared a panel of four murine IgG mAbs against rGNA1870 (variant 1) and evaluated their activity against nine genetically diverse encapsulated Neisseria meningitidis strains expressing subvariants of variant 1 GNA1870. Based on flow cytometry with live encapsulated bacteria, surface accessibility of the epitopes recognized by the mAbs appeared to be low in most strains. Yet mAb concentrations <1 to 5 micro g/ml were sufficient to elicit bactericidal activity with human complement and/or activate C3b deposition on the bacterial surface. Certain combinations of mAbs were highly bactericidal against strains that were resistant to bactericidal activity of the respective individual mAbs. The mAbs conferred passive protection against bacteremia in infant rats challenged by strains resistant to bacteriolysis, and the protective activity paralleled the ability of the mAb to activate C3b deposition. Thus, despite low GNA1870 surface exposure, anti-GNA1870 variant 1 Abs are bactericidal and/or elicit C3b deposition and confer protection against bacteremia caused by encapsulated N. meningitidis strains expressing GNA1870 subvariant 1 proteins. The data support GNA1870 as a promising vaccine candidate for prevention of meningococcal group B disease caused by GNA1870 variant 1 strains.

Prothrombin binds to the surface of apoptotic, but not viable, cells and serves as a target of lupus anticoagulant autoantibodies

Anti-phospholipid Ab (aPL) are a heterogeneous group of autoantibodies directed against various combinations of phospholipids (PL) and PL-binding proteins. Lupus anticoagulant (LA) Ab, a subset of aPL, exhibit anticoagulant properties in vitro, but are procoagulant in vivo. Most LA Ab are specific for either beta(2)-glycoprotein I (beta(2)GPI) or prothrombin (PT), two PL-binding proteins. We have previously shown that beta(2)GPI and beta(2)GPI-dependent aPL bind specifically to apoptotic, but not viable, thymocytes. In this study, we demonstrate that PT, like beta(2)GPI, binds selectively to the surface of apoptotic, but not viable, Jurkat cells. Furthermore, PT supports the binding of systemic lupus erythematosus-derived polyclonal and murine monoclonal LA Ab to apoptotic cells. Two LA mAb, which differed dramatically in their relative affinities for PT, were studied. Although one mAb (29J3-62) had a high affinity for PT alone, the other (29I4-24) showed minimal reactivity with PT alone and required PL for elevated binding. Monovalent fragments of 29I4-24 reacted with PL-bound PT with high affinity, suggesting that this mAb recognizes a PL-dependent epitope. Despite these differences, PT-dependent binding of both mAb to apoptotic cells was 30-fold greater than that to viable cells. Moreover, binding of PT to apoptotic cells was, itself, increased in the presence of bivalent, but not monovalent, forms of either mAb. In summary, our data demonstrate the following: 1) specific binding of PT to apoptotic cells, an effect enhanced by PT-dependent LA Ab; 2) heterogeneity of PT-dependent LA Ab; and 3) potential pathogenicity of Ab of either low or high affinity for PT.

Analysis of Neisseria lactamica antigens putatively implicated in acquisition of natural immunity to Neisseria meningitidis

Sera from healthy human volunteers, patients convalescent from meningococcal meningitis, and mice immunized with outer membrane proteins from Neisseria meningitidis and Neisseria lactamica strains were used to analyze and identify antigens cross-reactive to both neisserial species. All classes of meningococcal proteins except class 1 (PorA) and class 5 cross-reacted with N. lactamica proteins and two other proteins of 65 and 55 kDa (an iron-regulated protein). Results obtained with the mouse sera demonstrate that cross-reactive antibodies can be elicited by either N. meningitidis or N. lactamica. These results support the suggestion that N. lactamica contributes to the development of natural immunity against N. meningitidis during the first years of life. The use of vaccines containing proteins other than PorA could interfere in colonization of mucosal surfaces by N. lactamica, hampering the natural mechanisms of immunity acquisition in humans. Only convalescent sera reacted with the 55 and 65 kDa proteins, which suggests that they might be relevant for pathogenicity.

Passive immunization with Neisseria meningitidis PorA specific immune sera reduces nasopharyngeal colonization of group B meningococcus in an infant rat nasal challenge model

To examine the protective efficacy of specific immune sera generated by meningococcal vaccine candidates against nasopharyngeal colonization, we developed an infant rat nasal colonization model for group B meningococcus. In this model, Sprague-Dawley infant rats were challenged intranasally in with host adapted, piliated Neisseria meningitidis group B strains H355 or H44/76 administered concurrently with iron dextran. Colonization was assessed by quantitative culture of nasal homogenates and expressed as log(10) colony forming units (c.f.u.) per nose. Three to five log(10) c.f.u. of N. meningitidis were routinely recovered from the nasal tissue up to 4 days post-challenge. Passive immunization (i.p.) of the infant rats with either PorA or whole cell antisera 24 h prior to homologous challenge resulted in a significant reduction of N. meningitidis colonization in the nasal tissues of these animals. These results demonstrate that this model can be utilized to evaluate the role of antibody to prevent the initial nasopharyngeal colonization by group B meningococcus.

Evaluation of cross-reactive antigens as determinants of cross-bactericidal activity in pathogenic and commensal Neisseria

Several antisera raised against outer membane vesicles obtained from invasive and carrier Neisseria meningitidis strains and commensal Neisseria and Moraxella catharralis species were assayed to test cross-bactericidal activity on Neisseria meningitidis strains. Results demonstrate that, despite the wide antigenic cross-reactivity previously shown by Western-blotting for the major outer membrane antigenic proteins of all Neisseria species, complement mediated killing shows very variable patterns that can not be predicted on the basis of antigenic cross-reactivity. Results of antibody tritations on homologous and heterologous strains, isotyping, and bactericidal activity of sera raised against denatured purified outer-membrane vesicle proteins, suggest that the responsibility for most of the bactericidal activity of the sera must be conformational and/or shared epitopes not detectable by Western-blotting.

PorB3 outer membrane protein on Neisseria meningitidis is poorly accessible for antibody binding on live bacteria

It is reported here that the PorB3 porin proteins of serotype 4 and 15 are poorly accessible for antibody binding on live Neisseria meningitidis bacteria, whereas the allelic PorB2 and the PorA outer membrane protein appear to be highly accessible. This was revealed by flow cytometry analysis using several mouse monoclonal antibodies (mAbs) as well as PorB3 specific antibodies isolated from post vaccination and patient sera. However, strong antibody binding to the PorB3 protein was observed after killing the bacteria with ethanol. The reason for the lack of epitope exposure could be a shielding effect of the carbohydrate chains of lipopolysaccharides (LPS) possibly combined with short extra-cellular loops in the PorB3 protein. The findings indicate that the PorB3 protein is not an optimal target for protective antibodies induced by vaccination.

Production and characterization of a new monoclonal antibody against Neisseria meningitidis: study of the cross-reactivity with different bacterial genera

We have generated a hybridoma cell line which produces an 8C7Br1 clone of the IgM antibody isotype. It recognizes the 50-, 65-, and 60-kDa antigens and is reactive with strains of N. meningitidis in the 98% of local Neisseria genera by Dot-ELISA assays. Two percent of the strains of N. meningitidis B do not present reactivity with the 8C7Br1 monoclonal antibody (MAb). The antibody reacted against N. meningitidis of serogroups A, B, C, X, Y, Z, and different serotypes and subtypes of N. meningitidis B and C by means of Dot-ELISA and Immunoblot. It cross-reacted with Neisseria gonorrhoeae, Neisseria lactamica, Haemophilus influenzae type b, Escherichia coli, Salmonella typhimurium, Salmonella typhi, Shigella flexneri, Bordetella pertussis, and Bacillus subtilis. The 8C7Br1 MAb reacted with the 65-kDa protein present in the prototype meningococcal strains B:16:B6(B2a:P1.5.2) and 2996 (B2b:P1.5.2). In H. influenzae type b, E. coli and B. subtilis, the MAb recognized the protein of 60, 65, and 70 kDa, respectively. FACS analysis showed that 8C7Brl MAb could recognize the 50-kDa protein on the surface of N. meningitidis homologous (B:4:P1.9) strain. These results, together with the bactericidal activity of 8C7Br1, and an experiment of passive protection in mice, demonstrated the potential importance of the cross-reactive protein as a candidate antigen for N. meningitidis B vaccine composition.

Antigenic cross-reactivity between outer membrane proteins of Neisseria meningitidis and commensal Neisseria species

Two mouse sera against outer membrane proteins from a pathogenic Neisseria meningitidis strain and a commensal N. lactamica strain and two human sera from patients recovering from meningococcal meningitis were used to identify antigens common to pathogenic and commensal Neisseria species. Two major antigens of 55 kDa and 32 kDa, present in all N. meningitidis and N. lactamica strains tested, were demonstrable with all the sera used; the 55-kDa protein was iron-regulated. Demonstration of other common antigens was dependent on the serum used: a 65-kDa antigen was visualised with the human and the mouse anti-N. lactamica sera; a 37-kDa antigen identified as the meningococcal ferric binding protein (FbpA) was only detected with the mouse sera, and two antigens of 83 kDa and 15 kDa were only shown with the mouse anti-N. meningitidis serum. The results demonstrate the existence of several outer membrane antigens common to N. lactamica and N. meningitidis strains, in agreement with the hypothesis that natural immunity against meningitis is partially acquired through colonisation by commensal species, and open new perspectives for the design of vaccine formulations and the development of strategies for vaccination against meningitis.

Bactericidal and cross-protective activities of a monoclonal antibody directed against Neisseria meningitidis NspA outer membrane protein

The cross-bactericidal and cross-protective activities of a monoclonal antibody (MAb) named Me-7, which is directed against an antigenically highly conserved epitope on the meningococcal NspA protein, were studied. This MAb efficiently killed in vitro, in the presence of rabbit or human serum, 13 of 14 meningococcal strains tested, including 9 of 9, 2 of 3, and 2 of 2 strains of serotypes B, A, and C, respectively. MAb Me-7 also significantly reduced by more than 75% the levels of bacteremia recorded for mice challenged with 10 of 11 meningococcal strains tested. Analysis of the predicted amino acid sequence of the NspA protein from the meningococcal strain MCH88 (A:4:P1.10), which was not killed by MAb Me-7, indicated the presence of an additional glutamine residue at position 73, compared to the three other NspA sequences. The data presented in this study suggest that antibodies directed against this highly conserved outer membrane protein could protect against meningococcal infections.

The infant rat model adapted to evaluate human sera for protective immunity to group B meningococci

The infant rat infection model previously developed to evaluate protective ability of passively administered murine antibodies to group B meningococcal (MenB) surface antigens was adapted for human sera. Several challenge doses were tested, aiming at sensitive detection of protection with little interassay variability. Doses of 10(5) and 10(6) colony forming units of strain IH5341 (MenB:15:P1.7,16) injected intraperitoneally gave consistently high levels of bacteremia and meningitis developed in 6 h in 50-100% of the pups. A monoclonal antibody mAb735 to the MenB capsule, injected 1-2 h before bacterial challenge, gave full protection at a dose of 2 microg/pup. Sera from adult volunteers immunized with a MenB outer membrane vesicle vaccine reproducibly reduced bacterial counts in the blood and cerebrospinal fluid, whereas a normal human serum, lacking bactericidal and opsonophagocidal activity, was unprotective.

Antigenic and molecular conservation of the gonococcal NspA protein

A low-molecular-weight protein named NspA (neisserial surface protein A) was recently identified in the outer membrane of all Neisseria meningitidis strains tested. Antibodies directed against this protein were shown to protect mice against an experimental meningococcal infection. Hybridization experiments clearly demonstrated that the nspA gene was also present in the genomes of the 15 Neisseria gonorrhoeae strains tested. Cloning and sequencing of the nspA gene of N. gonorrhoeae B2 revealed an open reading frame of 525 nucleotides coding for a polypeptide of 174 amino acid residues, with a calculated molecular weight of 18,316 and a pI of 10.21. Comparison of the predicted amino acid sequence of the NspA polypeptides from the gonococcal strains B2 and FA1090, together with that of the meningococcal strain 608B, revealed an identity of 93%, suggesting that the NspA protein is highly conserved among pathogenic Neisseria strains. The level of identity rose to 98% when only the two gonococcal predicted NspA polypeptides were compared. To evaluate the level of antigenic conservation of the gonococcal NspA protein, monoclonal antibodies (MAbs) were generated. Four of the seven NspA-specific MAbs described in this report recognized their corresponding epitope in 100% of the 51 N. gonorrhoeae strains tested. Radioimmunobinding assays clearly indicated that the gonococcal NspA protein is exposed at the surface of intact cells.

Using monoclonal antibodies to prevent mucosal transmission of epidemic infectious diseases

Passive immunization with antibodies has been shown to prevent a wide variety of diseases. Recent advances in monoclonal antibody technology are enabling the development of new methods for passive immunization of mucosal surfaces. Human monoclonal antibodies, produced rapidly, inexpensively, and in large quantities, may help prevent respiratory, diarrheal, and sexually transmitted diseases on a public health scale.

Highly conserved Neisseria meningitidis surface protein confers protection against experimental infection

A new surface protein, named NspA, which is distinct from the previously described Neisseria meningitidis outer membrane proteins was identified. An NspA-specific mAb, named Me-1, reacted with 99% of the meningococcal strains tested indicating that the epitope recognized by this particular mAb is widely distributed and highly conserved. Western immunoblotting experiments indicated that mAb Me-1 is directed against a protein band with an approximate molecular mass of 22,000, but also recognized a minor protein band with an approximate molecular mass of 18,000. This mAb exhibited bactericidal activity against four meningococcal strains, two isolates of serogroup B, and one isolate from each serogroup A and C, and passively protected mice against an experimental infection. To further characterize the NspA protein and to evaluate the protective potential of recombinant NspA protein, the nspA gene was identified and cloned into a low copy expression vector. Nucleotide sequencing of the meningococcal insert revealed an ORF of 525 nucleotides coding for a polypeptide of 174 amino acid residues, with a predicted molecular weight of 18,404 and a isoelectric point of 9.93. Three injections of either 10 or 20 microg of the affinity-purified recombinant NspA protein efficiently protected 80% of the mice against a meningococcal deadly challenge comparatively to the 20% observed in the control groups. The fact that the NspA protein can elicit the production of bactericidal and protective antibodies emphasize its potential as a vaccine candidate.

Surface antigen analysis of group B Neisseria meningitis outer membrane by monoclonal antibodies: identification of bactericidal antibodies to class 5 protein

Twenty-four monoclonal antibodies (mAbs) against group B Neisseria meningitidis surface antigens were analyzed by immunoenzymatic assays and by a bactericidal test. Two mAbs were specific to polysaccharide B and one to lipopolysaccharide. The others were specific to polysaccharide B and one to lipopolysaccharide. The others were directed against outer membrane proteins ranging in molecular mass from 25 to 200 kDa. The outer membrane protein epitopes recognized by the mAbs were not conformational and were located on the outer surface of the microorganism. Linear epitopes on the class 5 protein, exposed on the surface of the membrane, were able to induce bactericidal antibodies to the homologous strain. The susceptibility of Neisseria meningitidis to these antibodies was unchanged when this organism was cultivated under conditions of iron depletion. These results demonstrate that peptides derived from class 5 proteins are potentially important in synthetic peptide or in recombinant protein vaccines containing linear bactericidal epitopes.

Humoral immune response to class 1 outer membrane protein during the course of meningococcal disease

We have determined the amounts of specific anti-class 1 outer membrane protein antibodies in sera from 25 patients during the course of systemic meningococcal disease, using purified class 1 protein as the sensitizing antigen in an enzyme-linked immunosorbent assay. The class 1 protein was obtained from a variant of strain 44/76 (B:15:P1.7,16) lacking class 3 and class 4 outer membrane proteins. Specific anti-class 1 (serosubtype P1.7,16) outer membrane protein immunoglobulin G (IgG) antibody levels increased significantly in 12 patients (12 of 25; 48%), regardless of the serotype of the infecting strain, indicating that the antibodies reacted in part with epitopes not determined by the monoclonal antibodies used for serotyping. Most patients had low levels of anti-class 1 IgG antibodies during the acute illness. The antibody levels peaked during the second week of disease and returned to near baseline levels in sera collected 6 weeks to 12 months after the onset of the disease. The majority of the specific anti-class 1 IgG antibodies bound to surface-exposed epitopes on whole bacteria and belonged to the IgG1 and IgG3 subclasses. Anti-class 1 IgA and IgM antibodies were not detected in any of the patient sera. Prior to disease, seven patients had been immunized with a meningococcal outer membrane vesicle vaccine developed from strain 44/76 (P1.7,16). None of these patients was infected with meningococcal strains containing class 1 protein homologous or partly homologous to that of the vaccine strain, indicating serosubtype-specific protection. The highest anti-class 1 IgG antibody peak levels were seen in immunized patients infected with strains of heterologous serotype, suggesting an anamnestic response. However, these patients were not protected from meningococcal disease after immunization.

Acquisition of heme iron by Neisseria meningitidis does not involve meningococcal transferrin-binding proteins

Similarities in size between hemin-binding protein 1 (HmBP1) and transferrin-binding protein 1 (TBP1) of Neisseria meningitidis suggest that these proteins are functionally homologous. However, a meningococcal mutant lacking the transferrin-binding proteins retained the capacity to acquire iron from heme and hemoglobin. In immunoblots, hyperimmune polyclonal antiserum against TBP1 did not react with HmBP1.

Humoral immune response to the class 3 outer membrane protein during the course of meningococcal disease

We have determined the amounts of specific anti-class 3 outer membrane protein antibodies of immunoglobulin G (IgG), IgM, and IgA isotypes in patient sera during the course of meningococcal disease by using purified class 3 protein as the sensitizing antigen in an enzyme-linked immunosorbent assay. The class 3 protein was obtained from a variant of strain 44/76 (B:15:P1.7,16) lacking class 1 and class 4 outer membrane proteins. Serum samples from 25 patients with systemic meningococcal disease caused by organisms of various serotypes were collected during the course of disease. Seven of these patients had been immunized with a meningococcal outer membrane vesicle vaccine made from strain 44/76 prior to disease. An increase in specific anti-class 3 (type 15) outer membrane protein IgG antibodies was demonstrated in 22 of 25 patients (88%), regardless of the serotype of the infecting strain. This indicates that the specific anti-class 3 antibodies were reacting in part with epitopes not determined by the monoclonal antibodies used for serotyping. A considerable heterogeneity in antibody levels and IgG subclass response was seen. Most patients had low levels of anti-class 3 antibodies during the acute illness, with antibodies peaking during the second week of disease and returning to near baseline in sera collected 6 to 12 months after the onset of the disease. The majority of the specific anti-class 3 IgG antibodies were shown to bind to surface-exposed epitopes on the whole bacteria and to belong to IgG1 and IgG3. The highest anti-class 3 IgG peak levels were seen in patients infected with strains of the homologous serotype after vaccination with the meningococcal outer membrane vesicle vaccine, suggesting an anamnestic response. However, these patients were not protected from meningococcal disease after immunization.

A novel approach to the laboratory diagnosis of Chlamydia trachomatis infections using monoclonal anti-idiotypic antibodies

We have developed a novel enzyme immunoassay (EIA) for the specific detection of Chlamydia trachomatis utilizing a monoclonal anti-idiotypic antibody to an antibody directed against a chlamydia specific epitope on 60 kDa heat-shock protein (HSP60). The basis of the assay is the inhibition of the binding of idiotype to anti-idiotype by antigen present in test samples. Two configurations of the assay were developed: a blocking EIA and a competition EIA. Greater sensitivity was observed using the competition EIA, with the assay detecting purified recombinant HSP60 and purified chlamydia in a concentration-dependent manner from 0.01 to 10 micrograms protein and from 0.5 to 12 micrograms total protein, respectively. The assay is highly specific and offers several potential advantages over currently available EIAs for the detection of this pathogen.

[Immune response to anti-meningococcal vaccines]

In view of a recent epidemic of meningococcal disease caused by serogroup B N. meningitidis in the Greater S. Paulo area (Brazil), a review of the epidemics that occurred in Brazil during the period from 1900 to 1990 is presented. The current status of vaccines against N. meningitidis A.C.Y. and W135 is analysed. The recent advances in the development and effectiveness of B. meningococci vaccines are discussed.

Monoclonal anti-idiotypes for the rapid detection of human cytomegalovirus

A novel enzyme-linked immunosorbent assay (ELISA) was developed for human cytomegalovirus (HCMV) utilizing a monoclonal anti-idiotype specific for CMVB1, an antibody to HCMV. Samples of HCMV were measured by their inhibition of the binding of CMVB1 to anti-idiotype. The ELISA detected HCMV in a concentration-dependent manner from 20 to 0.6 x 10(3) PFU/ml, with 50% inhibition at approx. 3 x 10(3) PFU/ml. These data demonstrate the potential of anti-idiotype antibodies as the basis of simple and rapid diagnostic tests for infectious agents.

Monoclonal anti-idiotypes induce neutralizing antibodies to enterovirus 70 conformational epitopes

Monoclonal antibodies (MAbs) directed against the prototype enterovirus 70 (EV-70) strain J670/71 were generated and characterized in order to produce anti-idiotypic MAbs (MAb2s) for use as surrogate immunogens. Western immunoblot and radioimmunoprecipitation assays suggested that all the MAbs recognize conformational epitopes on the virion surface. An EV-70-neutralizing antibody, MAb/ev-12 (MAb1), was selected for the production of MAb2s. Five MAb2s were selected for their capacities to inhibit the interaction of MAb/ev-12 with EV-70 in dot immunobinding inhibition and immunofluorescence assays. In addition, these five MAb2s inhibited virus neutralization mediated by MAb/ev-12, suggesting that they recognize paratope-associated idiotopes. In competition enzyme immunosorbent assays, none of the five MAb2s recognized other neutralizing and nonneutralizing EV-70-specific MAbs, demonstrating that the MAb2s were specific for private idiotopes. Immunization with each of the MAb2s was carried out for the production of anti-anti-idiotypic antibodies (Ab3). All five MAb2s induced an immune response. Moreover, results suggested that they share idiotopes, since MAb2-MAb/ev-12 binding could be inhibited by homologous as well as heterologous Ab3s. Ab3 sera were shown to possess antibodies capable of immunoprecipitating 35S-labeled viral proteins in the same manner as MAb/ev-12. Nine of 15 mice immunized with MAb2s demonstrated Ab3 neutralizing activity specific for the prototype EV-70 strain, J670/71. The potential application of MAb2s to serve as surrogate immunogens for conformational epitopes is substantiated by the results presented in this report.

Immunological characterization of the lipooligosaccharide B band of Bordetella pertussis

Two structurally and immunologically different components of Bordetella pertussis endotoxin can be visualized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and silver staining: a major A band and a faster-migrating minor B band. Certain mutant strains of B. pertussis express only the B band, while the wild-type strains produce both lipooligosaccharides (LOS). Two monoclonal antibodies (MAbs) directed against the minor LOS B band were generated, allowing the study of this surface molecule on different strains of Bordetella. These two MAbs, designated BL-8 and BL-9, reacted strongly with phenol-water-purified LOS obtained from a B. pertussis LOS B mutant strain. Sodium periodate treatment of the purified LOS prevented binding of the MAbs, indicating the carbohydrate nature of the epitope(s). Western immunoblotting experiments revealed that the epitope(s) recognized by these MAbs is conserved on all B. pertussis and Bordetella bronchiseptica Vir- (avirulent) variant strains tested but is not present on Bordetella parapertussis and B. bronchiseptica Vir+ (virulent) wild-type strains. Further studies showed that although present in the lipopolysaccharide B band expressed by Vir- strains, the epitope(s) recognized by the MAbs is not accessible on the surface of intact B. bronchiseptica cells. For B. pertussis, the density and accessibility of this epitope(s) are dependent on the virulence-associated or LOS phenotype expressed by the strain. Our data demonstrate that the expression and accessibility of the epitope(s) are significantly greater on the LOS B variant strains and LOS AB Vir- strains compared with fresh B. pertussis clinical isolates. For these latter strains, which are Vir+, this epitope(s) was barely detectable on the surface of intact bacteria, despite Western blot analyses that revealed specific reactions between the MAbs and the LOS B band. The two LOS B-specific MAbs had no bacteriolytic activity against a LOS AB wild-type strain, while the control MAb BL-2, which is specific for the B. pertussis LOS A band, significantly reduced the number of living bacteria in the same assay. Moderate lytic activity against a mutant strain expressing only the LOS B band was observed for MAb BL-8 but not for MAb BL-9 or BL-2. These data demonstrate that the type, amount, and surface exposure of the LOS are related to the phenotype expressed by a specific B. pertussis strain. In addition, the LOS B MAbs also reveal the antigenic conservation of carbohydrate epitopes among B. pertussis and B. bronchiseptica strains.

Immunogenicity and antigenic heterogeneity of a human transferrin-binding protein in Neisseria meningitidis

Growing Neisseria meningitidis on an iron restriction medium induces the synthesis of new outer membrane proteins, some of them true iron-regulated outer membrane proteins (IROMPs) and others synthesized because of the stress produced by the iron restriction. Some of these proteins are antigenic and can be considered for the development of vaccines; this is especially desirable in the case of N. meningitidis serogroup B, for which polysaccharide vaccines are not efficient. The antigenicity of N. meningitidis 37- and 70-kDa IROMPs has been studied previously; in this work, we studied the immunogenicity and antigenic heterogeneity of another IROMP, the human transferrin-binding protein 2 (TBP2), which seems to be indispensable for meningococcal growth inside the host. Mice were inoculated with purified outer membrane vesicles (blebs) from 5 selected N. meningitidis strains, and the five serum samples obtained were analyzed for anti-TBP2 antibodies by using the homologous strain and for cross-reactivity with the TBP2 of the 4 other selected strains and another 35 heterologous N. meningitidis strains. The TBP2s of the 5 strains tested were all immunogenic in mice to various degrees depending on the strain, and all five TBP2s shared one or more epitopes with heterologous strains (as shown by the cross-reactivities of the five serum samples), although the number of cross-reacting strains was very variable, ranging from 2 for strain V002 to 35 for strain P391. This suggests that the TBP2 epitopes of different strains differ in nature or in their accessibility to the immune system. Under the iron restriction conditions used, all strains synthesized a non-TBP2 antigenic 56-kDa protein thought to be a stress protein.

Epitope analysis of an immunodominant domain on the P1 protein of Haemophilus influenzae type b using synthetic peptides and anti-idiotypic antibodies

Synthetic peptides, anti-idiotypic antibodies (anti-Id) and human and murine monoclonal antibodies (mAbs) were used to further define a major antigenic domain on the outer membrane P1 protein (OMP) of Haemophilus influenzae type b (Hib). Synthetic peptides were elaborated from the known primary sequences of the P1 protein of prototype Hib strains MinnA (OMP subtype 1H) and 8358 (OMP subtype 6U). By peptide mapping, antibodies are categorized into three groups: A, B and C. A first epitope on the P1 from strain MinnA was identified by the reactivity of one set of murine anti-P1 mAbs with the two overlapping peptides 11H and 13H, corresponding to amino acid residues 384-412 and 400-437, respectively. On the basis of their reactivity with both peptides, these mAbs were designated as group A. Anti-Id obtained from mice immunized with two group A mAbs reacted specifically with all group A mAbs. A second epitope on the same P1 protein was identified by the reactivity of the peptide 13H with another distinct set of murine anti-P1 mAbs assigned to group B. This group of mAbs did not recognize the peptide 11H. Murine anti-Id which were prepared against one group B mAb inhibited the attachment of this mAb to outer membrane preparations, whereas the binding of the other group B mAbs was not affected, suggesting that these mAbs represent a heterologous group of mAbs. The epitope(s) recognized by two human anti-P1 mAbs was (were) distinct from the ones recognized by murine mAbs since no reactivity with the peptides was observed. Similarly, the binding of the two human mAbs to the P1 antigen was not inhibited by anti-Id raised against group A or B mAbs. Interestingly, an epitope on a different P1 protein recovered from strain 8358 was identified by the reactivity of group C murine mAbs with the peptide 13U, which occupies the same position on the P1 protein as 13H but differs from the latter by 10 amino acid residues. Our studies demonstrated the presence of several distinct surface-exposed B-cell epitopes within the antigenic domain which was defined previously on the P1 protein of Hib MinnA. Furthermore, we showed the immunodominance of this region on two different P1 proteins. None of the mAbs, however, had a bacteriolytic or protective activity against Hib strains. We suggest that the surface-exposed immunodominant region on the OMP P1 of Hib do not induce protective antibodies against Hib infection.

Monoclonal antibody characterization of Jamestown Canyon (California serogroup) virus topotypes isolated in Canada

Jamestown Canyon (JC) virus of the California (CAL) serogroup has been isolated in 12 American states and 6 Canadian provinces. A study was undertaken to produce monoclonal antibodies (MAbs) to JC virus and to use these MAbs to assay for possible heterogeneity among naturally occurring JC topotypes in Canada. MAbs were produced to the prototype strain of JC virus using BALB/c mice. Twenty-seven secreting MAbs were obtained and three of these MAbs were propagated and studied. All three MAbs, M1 (IgG1), M2 (IgG2b), and M3 (IgG2a), were reactive by immunofluorescent antibody assay against JC-infected vero cells and by ELISA against JC antigen. MAb M2 reacted with all members of the Melao complex, MAb M1 reacted only with Keystone virus, while MAb M3 exhibited no reactivity with other CAL serogroup viruses. Only MAb M3 possessed neutralization and hemagglutination inhibition activities against JC virus. The MAbs were also tested by ELISA and for neutralizing activity against 13 JC topotypes isolated in 5 provinces from Newfoundland to Saskatchewan. ELISA confirmed closer identity of the Canadian topotypes to JC as opposed to the closely related South River virus. The MAbs verified all Canadian topotypes to be JC virus but revealed different patterns of reactivity between these topotypes and prototype JC virus.

Transferrins and heme-compounds as iron sources for pathogenic bacteria

The low concentration of free iron in body fluids creates bacteriostatic conditions for many microorganisms and is therefore an important defense factor of the body against invading bacteria. Pathogenic bacteria have developed several mechanisms for acquiring iron from the host. Siderophore-mediated iron uptake involves the synthesis of low molecular weight iron chelators called siderophores which compete with the host iron-binding glycoproteins lactoferrin (LF) and transferrin (TF) for iron. Other ways to induce iron uptake, without the mediation of siderophores, are the possession of outer membrane protein receptors that actually recognize the complex of TF or LF with iron, resulting in the internalization of this metal, and the use of heme-compounds released into the circulation after lysis of erythrocytes. In this review, the nonsiderophore-mediated iron-uptake systems used by certain pathogenic bacteria are emphasized. The possible contribution of these iron-uptake systems to the virulence of pathogens is also discussed.

Mapping of B-cell epitopes on the outer membrane P2 porin protein of Haemophilus influenzae by using recombinant proteins and synthetic peptides

The P2 protein of Haemophilus influenzae type b has a porin activity and is the most abundant protein in the outer membrane. We have employed fusion protein constructs and synthetic peptides along with monoclonal antibodies to map B-cell epitopes in this protein. A linear, surface-exposed epitope was identified between residues 158 and 174. A second surface-exposed epitope was identified near the carboxy-terminal end of the protein (residues 319 to 341). Two additional B-cell epitopes were identified. One was localized between residues 28 and 55, whereas the other was located between residues 148 and 174. These epitopes were not present on the surface of intact H. influenzae cells. Thus, four distinct immunogenic and antigenic regions on the P2 protein have been identified.

Identification of a surface-exposed immunodominant epitope on outer membrane protein P1 of Haemophilus influenzae type b

Eight murine monoclonal antibodies (MAbs) directed against outer membrane protein P1 of Haemophilus influenzae type b were generated and characterized. Seven of the eight MAbs reacted with recombinant P1 and purified P1 protein from H. influenzae type b strains MinnA and 1613; MAb P1.8 was specific for the latter strain. A panel of 32 nontypeable and 140 encapsulated Haemophilus strains recovered worldwide representing the major clonal families of serotypes a, b, and d was used to evaluate the distribution among Haemophilus strains of the epitopes identified by the P1-specific MAbs. The epitope reactive with the seven MAbs which recognized P1 from strains MinnA and 1613 was shared by 92% of the encapsulated Haemophilus isolates tested. The epitope is present in the H. influenzae type b strains from clonal families commonly recovered from cases of invasive disease in North America and Europe. A series of nested 5' and 3' deletions of the P1 gene were constructed and analyzed to localize the determinants on P1 recognized by the MAbs. MAbs P1.2, P1.4, P1.5, P1.6, and P1.7 recognized an epitope localized to the carboxy-terminal portion of P1. Murine MAbs P1.1 and P1.3 and two human MAbs, HiH-7 and HiH-10, recognized a complex epitope which was partially localized to the carboxy-terminal portion of the P1 protein. These data indicate that an immunodominant surface-exposed epitope is present on the carboxy-terminal portion of the P1 protein of type b Haemophilus isolates responsible for the majority of invasive disease in North America.

Immunoglobulin V regions of a bactericidal anti-Neisseria meningitidis outer membrane protein monoclonal antibody

C6 is a potentially therapeutic murine monoclonal antibody that recognizes the class 1 outer membrane protein of Neisseria meningitidis. C6 specifically immunoblots this antigen and augments in vitro killing of N. meningitidis bacteria. We describe a general method of obtaining the heavy and light chain variable-region sequence from immunoglobulin-secreting cells. The method uses mixed polymerase chain reaction (PCR) primers designed from the 5' end of the framework 1 (FR1) sequences of the heavy and light chains, and 3'-end primers for constant-region conserved sequences. The method has been applied to the cloning and sequencing of the variable region of C6 to construct a humanized monoclonal antibody. Rapid amplification and sequencing of variable regions by this general method have multiple applications in the study of the immune response to infectious diseases.

Induction of an immune response to the porin of Haemophilus influenzae type b by monoclonal anti-idiotypic antibodies

Monoclonal anti-idiotypes were generated against monoclonal antibody (mAb) Hb-2 which recognized a highly conserved epitope on the outer membrane porin protein from Haemophilus influenzae type b (Hib). Four hybridomas reacting with F(ab') 2 fragments of Hb-2 were selected and characterized. Inhibition studies using syngeneic anti-anti-idiotypic antisera suggested that at least three different antigenic determinants on Hb-2 were recognized by these monoclonal anti-idiotypes. The binding of each anti-idiotype to Hb-2 was inhibited by Hb-2 whereas the reaction was not affected by any other anti-Hib mAb. Complete inhibition of the binding of anti-idiotype to the idiotype could be achieved with 10 micrograms of total outer membrane protein (OMP) from Hib suggesting that the anti-idiotypes might be directed against paratope-associated idiotypes. Outer membrane antigens not recognized by mAb Hb-2 did not inhibit the reaction. Furthermore, the pre-incubation of Hb-2 with each anti-idiotype specifically prevented the reaction of Hb-2 with its antigen. Antibodies with specificity for the porin were generated in guinea pigs immunized with anti-idiotypes AHb-22 and AHb-23. This study indicates that these particular monoclonal anti-idiotypes may be used as an antigen substitute for the porin of Hib in a xenogeneic species.

Antigenic relationships among the porin proteins of encapsulated Haemophilus influenzae clones

Monoclonal antibodies (Mabs) specific for Haemophilus influenzae were generated to identify antigenic determinants shared among encapsulated H. influenzae clones. Sixteen MAbs reacted by Western immunoblot with a protein of an approximate molecular size of 40 kilodaltons corresponding to the P2 major outer membrane protein (porin). These MAbs also reacted with purified and recombinant H. influenzae porin. Fourteen of the MAbs recognized cell surface-exposed epitopes, and two of the MAbs, P2-16 and P2-17, identified epitopes that are not present or are not accessible on the cell surface. The reactivity spectrum of the MAb panel was studied by dot immunoassay against 32 serologically nontypeable and 119 encapsulated H. influenzae strains recovered worldwide, representing the major serotype a, b, and d clone families. MAbs P2-4 and P2-6 recognized only serotype b clones assigned to primary phylogenetic division I. These clones account for more than 99% of all invasive episodes worldwide. MAbs P2-3, P2-8, and P2-11 reacted with division I serotype b isolates and also identified all genetically allied strains expressing serotype a and d polysaccharide capsules. In contrast, none of the 16 MAbs reacted with genetically divergent serotype a or b clones assigned to primary phylogenetic division II. These results demonstrate that, in general, the patterns of P2 protein surface epitope exposure are cognate with genetic lineages of encapsulated H. influenzae strains and support the hypothesis that the population structure of encapsulated H. influenzae is predominantly clonal.

Production and characterization of monoclonal antibodies to cell wall antigens of Aspergillus fumigatus

Two murine monoclonal antibodies (MAbs) against Aspergillus fumigatus were produced and characterized. Splenocytes from cell wall-immunized BALB/c mice were fused with SP2/0 myeloma cells. The hybridomas were screened with a cold alkali (CA) extract of mycelium containing protein, mannose, and galactose, and two MAbs of the immunoglobulin M class were purified from ascites fluid. MAbs 1 and 40 were characterized by double immunodiffusion against CA antigen, indirect enzyme immunoassay with mannans of Candida albicans serotypes A or B or Candida tropicalis, indirect immunofluorescence with C. albicans- or A. fumigatus-infected tissues, indirect immunofluorescence with smears of other pathogenic fungi, Western blotting (immunoblotting) with the lectin concanavalin A or BS-1 from the seeds of Bandeirea simplicifolia, and immunoelectron microscopy. MAb 1 did not cross-react with Candida mannan and recognized a periodate-sensitive, pronase- and heat-resistant epitope in CA antigen and three mannose- and galactose-containing components (80, 62, and 49 kilodaltons) of a mycelial homogenate. Immunoelectron microscopy demonstrated binding of MAb 1 to the inner cell wall and intracellular membranes of hyphae and conidia of A. fumigatus. Circulating antigen was detected in experimental invasive aspergillosis by inhibition enzyme immunoassay with MAb 1 and CA antigen. MAb 40 was a nonprecipitating antibody cross-reactive with Candida species, and competition for an epitope located diffusely in the cell wall of A. fumigatus hyphae was demonstrated by incubating MAb 40 with mannan of C. albicans serotype A. These results suggest that MAb 1 recognizes immunodominant oligogalactoside side chains of A. fumigatus galactomannan, while MAb 40 binds to mannopyranosyl side chains common to A. fumigatus galactomannan and C. albicans mannan.

Passive immunization against Cryptococcus neoformans with an isotype-switch family of monoclonal antibodies reactive with cryptococcal polysaccharide

The in vivo properties of an immunoglobulin isotype-switch family of monoclonal antibodies specific for the polysaccharide capsule of Cryptococcus neoformans were examined in a murine model of cryptococcosis. Subclass-switch variants were isolated by sequential sublining of an immunoglobulin G subclass 1 (IgG1)-secreting cell line. Antibodies of the IgG1, IgG2a, and IgG2b isotypes with identical reactivities with cryptococcal polysaccharide were prepared. The antibodies had the distinct biological properties associated with the heavy chains of each respective isotype. The antibodies were used prophylactically or therapeutically in an attempt to alter the course of cryptococcal infection in mice. Survival of mice and a tissue census of the numbers of viable cryptococci in the lung, spleen, and brain were used as indicators of efficacy. Passive immunization with the IgG2a and IgG2b antibodies effected a reduction in the numbers of cryptococci in lung and spleen. Passive immunization with the IgG1 antibody was markedly less effective. Passive immunization had little or no effect on the numbers of cryptococci in brain tissue, regardless of the immunoglobulin isotype. Despite apparent efficacy with regard to reduction in the numbers of yeast cells in the lung and spleen, the results showed no improvement in survival from murine cryptococcosis. Our results indicate that passive immunization produces a modest effect on the course of murine cryptococcosis in tissues other than brain. However, under the experimental conditions used, such treatment does not have a measurable impact on the ultimate outcome of the infection.

Neutralizing monoclonal antibody against enterovirus-70 reacts with viral proteins 1C and 1D

A library of murine monoclonal antibodies against the prototype Enterovirus-70 (EV-70) strain, J670/71, was made for the purpose of studying the immunologically reactive determinants of the virus. Each of the monoclonal antibodies reacted with several other strains of Enterovirus-70 when tested by immunofluorescence. However, none of these monoclonal antibodies reacted with any other picornavirus tested. It was found that all of the monoclonal antibodies precipitated EV-70 viral proteins 1C and 1D in radio-immunoprecipitation assays. However, only one of these monoclonal antibodies, an IgG3 kappa, was capable of neutralizing the virus.

Characterization of a 78-kilodalton outer membrane protein of Haemophilus somnus

A 78-kilodalton (kDa) outer membrane protein (OMP) of Haemophilus somnus was one of the two antigens most consistently and most intensely immunoreactive in Western immunoblots of whole cells of H. somnus reacted with convalescent-phase serum obtained from cattle with experimental H. somnus pneumonia. This antigen was isolated by gel filtration chromatography of sodium dodecyl sulfate-solubilized OMP. Reactions of Western blots with bovine monospecific antiserum prepared against the 78-kDa antigen indicated that this 78-kDa OMP was present in each of 22 isolates of H. somnus obtained from cattle with pneumonia, thromboembolic meningoencephalitis, and abortion as well as from vaginal or preputial carriers. The 78-kDa OMP was also present in each isolate obtained weekly throughout the course of experimental H. somnus pneumonia in a calf. Monospecific antiserum to the 78-kDa OMP also reacted with proteins from closely related bacterial species in the family Pasteurellaceae but not with bacteria of 13 other genera. The 78-kDa OMP of H. somnus is of interest because it is surface accessible, highly conserved, immunogenic, cross-reactive with other members of the family Pasteurellaceae, and reactive with convalescent-phase serum which is passively protective against H. somnus pneumonia.

Detection of Neisseria gonorrhoeae by dot-enzyme immunoassay using monoclonal antibodies

A highly sensitive and specific dot-enzyme immunoassay for the detection of Neisseria gonorrhoeae was developed using a pool of monoclonal antibodies (MAbs). The MAbs were obtained following immunization of mice with lithium acetate extracted outer membrane (OM) preparations. Western immunoblotting experiments demonstrated that MAbs NG26 and NG38, both IgG2a, reacted with lipopolysaccharides (LPS) and with the major OM protein, P1, respectively, MAb NG28, an IgG3, did not react in Western immunoblotting, MAbs NG28 and NG38 failed to react with OM treated with proteolytic enzymes or with semi-purified preparation of LPS. MAb NG26 reacted with the same LPS preparation. Binding radioimmunoassay with live bacteria showed that all the MAbs adsorbed to cell surface-exposed antigenic determinants. The limit of detection of the dot-enzyme immunoassay was between 1 and 4 x 10(4) cfu per dot. Using a panel of 177 strains of N. gonorrhoeae, MAbs NG28 and NG38 recognized only P1A and P1B strains respectively. MAb NG26 reacted with P1A, P1B and non-typable strains. These MAbs did not react with other Neisseria species or other bacterial species. Using this pool, the dot-enzyme immunoassay had a sensitivity of 93.2% and a specificity of 100%.