Antigenic characterization of the oligosaccharide portion of the lipooligosaccharide of nontypable Haemophilus influenzae

Monoclonal antibodies (MAbs) directed against epitopes in the oligosaccharide portion of the lipooligosaccharide (LOS) of nontypable Haemophilus influenzae (NTHI) were used to characterize the LOS of this pathogen. Western blot (immunoblot) analysis with four LOS-specific MAbs and proteinase K-derived LOS preparations from 69 NTHI strains allowed the classification of these strains into nine LOS antigenic groups. The use of these MAbs in a more sensitive colony blot radioimmunoassay system together with these same NTHI strains identified 14 LOS antigenic groups. Extensive cross-reactivity was detected between the LOS epitopes of these NTHI strains and the LOS of H. influenzae type b. The epitopes recognized by these MAbs were not accessible to antibody on the surface of every strain. These LOS epitopes were also not stably expressed by NTHI growing in vitro; the observed frequency of LOS antigen variation ranged from 1 to 24% when large numbers of colonies of NTHI strains were screened for reactivity with the LOS-directed MAbs in the colony blot radioimmunoassay. This LOS antigenic variation was sometimes associated with alterations in the profile of the LOS molecule as resolved by dodecyl sulfate-polyacrylamide gradient gel electrophoresis followed by staining with silver. These data indicate that considerable antigenic diversity exists among NTHI strains with regard to the oligosaccharide epitopes in their LOS molecules.     

Structural and antigenic conservation of the P2 porin protein among strains of Haemophilus influenzae type b.

The P2 porin protein is the most abundant protein in the outer membrane of Haemophilus influenzae type b (Hib). Biochemical and immunochemical techniques were used to characterize the P2 proteins from a number of different Hib strains. P2 proteins from Hib outer membrane vesicles were resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and transferred to nitrocellulose for in situ tryptic digestion. Solid-phase tryptic digests of P2 from eight Hib strains were resolved by high-pressure liquid chromatography and shown to be similar if not identical. Radioimmunoprecipitation analysis involving Hib cells (containing intrinsically radiolabeled proteins or lipooligosaccharide) and Western blot (immunoblot) analysis were used to identify two P2-specific murine monoclonal antibodies (MAbs). These MAbs were shown to be reactive with 120 Hib strains tested in a colony blot radioimmunoassay. One of these MAbs bound to a surface-exposed P2 epitope that was antibody accessible on all Hib strains tested; the other MAb was directed against a P2 epitope that either was not exposed on the cell surface or was otherwise inaccessible to antibody.     

Antigenic and phenotypic variations of Haemophilus influenzae type b lipopolysaccharide and their relationship to virulence.

Haemophilus influenzae type b (Hib) strains NO100 and COL10 were found to produce bacteremia in infant rats at a much lower frequency than other Hib strains previously tested. These relatively avirulent strains were the only Hib strains among 200 clinical isolates examined to date which failed to react with two Hib lipopolysaccharide (LPS)-specific monoclonal antibodies (MAbs). LPS analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that strains NO100 and COL10 possessed LPS which migrated faster than the LPS of Hib strains that reacted with one of the two or with both of these MAbs. These observations suggested that the relative lack of virulence of strains NO100 and COL10 might be related to their unusual LPS phenotype. To determine whether alteration of LPS structure would affect the virulence of these strains, we identified and isolated isogenic LPS antigenic variants of strains NO100 and COL10 using the LPS-specific MAbs 4C4 and 5G8 in a colony blot radioimmunoassay. Antigenic variation of LPS was found to occur spontaneously in these two strains at a relatively high frequency in terms of both acquisition and loss of MAb reactivity (ca. 0.2 to 16.7%). LPS antigenic variants of strains NO100 and COL10 reactive with both MAbs 4C4 and 5G8 (4C4+ 5G8+) were more virulent in the infant rat model than their respective 4C4- 5G8- parental strains (P less than 0.01). An antigenic variant of COL10 reactive with only MAb 4C4 (4C4+ 5G8-) was also significantly more virulent than its 4C4- 5G8- parent. These LPS antigenic variants with increased virulence synthesized altered LPS molecules which possessed apparent molecular weights higher than those of the LPS of the parental strains. Increased resistance of strain NO100 to the bactericidal activity of normal infant rat serum was associated with changes in LPS structure, while strain COL10 and its LPS variants were all uniformly resistant to serum bactericidal activity. Our results demonstrate that (i) spontaneous antigenic and phenotypic variation of LPS occurs at a relatively high frequency in some strains of Hib; (ii) the higher-molecular-weight type of LPS is associated with the full expression of Hib virulence; (iii) LPS phenotype may not correlate with Hib serum resistance; and (iv) serum resistance of Hib is not an accurate indicator of virulence.     

Conservation of epitopes in the oligosaccharide portion of the lipooligosaccharide of Haemophilus influenzae type b.

The antigenic characteristics of the lipooligosaccharide (LOS) of Haemophilus influenzae type b (Hib) were examined in strains obtained over an extended period of time. These Hib strains were isolated from patients with systemic Hib disease in Dallas, Tex., over a 20-year period and in New York City between 1941 and 1956. The antigenic characteristics of the LOS of these Hib strains were examined by using a set of four murine monoclonal antibodies directed against epitopes present in the oligosaccharide portion of the LOS molecule. The same basic set of LOS antigenic determinants that is expressed by recent Hib isolates was also found to be present in this collection of Hib strains spanning a 40-year period. Some variation with time was detected in the distribution of the systemic disease isolates among four Hib LOS antigenic groups; however, only 2 of 188 Hib isolates failed to react with a set of two LOS-specific monoclonal antibodies. Therefore, little variation has occurred among Hib strains with regard to the LOS epitopes defined by these monoclonal antibodies over a considerable period of time.     

Escherichia coli hemolysin may damage target cell membranes by generating transmembrane pores.

We used mouse monoclonal antibodies (MAbs) to characterize Neisseria gonorrhoeae lipooligosaccharide (LOS). LOSs that bound two or more MAbs in a solid-phase radioimmunoassay usually bound them to different LOS components, as separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE); strains with multiple LOS components on SDS-PAGE usually bound more than one MAb. However, the LOS of some strains bound the same MAb to two LOS components with different relative molecular weights, and some individual LOS components bound more than one MAb. LOSs from different strains bound different amounts of the same MAb at saturation, reflecting differences in the quantitative expression of individual LOS components. Not all components recognized by MAbs were stained by silver after periodate oxidation. Treatment with NaOH variously affected epitopes defined by different MAbs. MAb 3F11 completely inhibited and MAb 2-1-L8 partially inhibited the binding of 125I-labeled 06B4 MAb to WR220 LOS and WR220 outer membranes in competitive binding studies. Other MAbs did not compete with the binding of 125I-labeled 06B4 to either antigen. We conclude that a strain of N. gonorrhoeae elaborates multiple LOSs that can be separated by SDS-PAGE and that are antigenically distinct. Epitope expression within these glycolipids is complex.     

Lipooligosaccharides (LOS) of some Haemophilus species mimic human glycosphingolipids, and some LOS are sialylated.

The lipooligosaccharides (LOS) of strains of Haemophilus ducreyi, Neisseria gonorrhoeae, Neisseria meningitidis, and Neisseria lactamica contain epitopes that are antigenically and structurally similar to carbohydrates present in human glycosphingolipids. LOS from strains of Haemophilus influenzae and H. influenzae biogroup aegyptius were tested for the binding of monoclonal antibodies (MAbs) that bind to human glycosphingolipids possessing Gal beta 1-4GlcNAc (MAb 3F11) and Gal alpha 1-4Gal beta 1-4Glc (MAb anti-Pk). In solid-phase radioimmunoassays, the LOS of 18 of 19 H. influenzae type b (Hib), 8 of 19 nontypeable H. influenzae, and 10 of 20 H. influenzae biogroup aegyptius strains bound MAb anti-Pk. The LOS of 13 of 19 Hib, 10 of 16 nontypeable H. influenzae, and 2 of 18 H. influenzae biogroup aegyptius strains bound MAb 3F11. Neuraminidase treatment of the strains increased the binding of MAb 3F11 by more than twofold in 47% of the H. influenzae strains, suggesting that sialic acid occluded the LOS structure recognized by MAb 3F11. The material released from neuraminidase-treated Hib LOS was confirmed to be sialic acid by high-performance anion-exchange chromatography. A recombinant plasmid containing genes involved in Hib LOS biosynthesis directed the expression (assembly) of the 3F11 epitope in Escherichia coli. These studies demonstrate that H. influenzae and H. influenzae biogroup aegyptius express at least two LOS epitopes that are similar to those present in human glycosphingolipids. Sialic acid was present on the LOS of some H. influenzae strains and prevented the binding of MAb 3F11 to its epitope. The oligosaccharide portion of sialylated LOS may also resemble sialylated oligosaccharides present in human glycosphingolipids (gangliosides).     

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.     

Comparative analysis of two meningococcal immunotyping monoclonal antibodies by resonant mirror biosensor and antibody gene sequencing.

Lipooligosaccharide (LOS) is a major surface component of the cell walls of Neisseria meningitidis, which is important for its roles in pathogenesis and antigenic variation, as a target for immunological typing, and as a possible vaccine component. Although the structures of many antigenic variants have been determined, routine immunological typing of these molecules remains problematic. Resonant mirror analysis was combined with gene sequencing to characterize two monoclonal antibodies (MAbs) used in typing panels that were raised against the same LOS immunotype, L3,7,9. The two MAbs (MAb 4A8-B2 and MAb 9-2-L379) were of the same immunoglobulin subtype, but while MAb 9-2-L379 was more than a 1,000-fold more sensitive in immunotyping assays of both whole meningococcal cells and purified LOS, MAb 4A8-B2 was more specific for immunotype L3,7,9. The differences in sensitivity were a consequence of MAb 9-2-L379 having a 44-fold-faster association constant than MAb 4A8-B2. Comparison of the amino acid sequences of the variable chains of the MAbs revealed that they had very similar heavy chains (81% amino acid sequence identity) but diverse light chains (54% sequence identity). The differential binding kinetics and specificities observed with these MAbs were probably due to differences in the epitopes recognized, and these were probably a consequence of the different immunization protocols used in their production.     

Instability of expression of lipooligosaccharides and their epitopes in Neisseria gonorrhoeae.

We assessed variation in the expression of lipooligosaccharide (LOS) components and their epitopes within populations of a strain of Neisseria gonorrhoeae by using the monoclonal antibodies (MAbs) O6B4 and 3F11 and immunoenzymatic, immuno-colloidal gold electron microscopic, and sodium dodecyl sulfate-polyacrylamide gel electrophoretic procedures. Wild-type organisms varied in binding of both MAbs. We used the intensity of immunoenzymatic colony blot color to distinguish four binding variants for each MAb: red (R), pink (P), and colorless (nonreactive [N]) and an N back to R (N-R) revertant. R to P to R and R to N to R variation occurred at frequencies of 0.2% and 0.02%, respectively. The electrophoretic LOS profiles and MAb immunoblot patterns of the R, P, and N-R variants were the same as those of the wild type. LOSs of the N variants, in contrast, were of lower Mr, bound neither 3F11 nor O6B4 MAb, and contained as their major component the 3.6-kilodalton LOS that bears the L8LOS epitope of N. meningitidis. Results of immunoelectron microscopic studies were consistent with LOS binding patterns. Large number of colloidal gold particles were deposited about both R and P variants, distally from R organisms, but proximally from P organisms. N variant organisms, like their LOS, bound neither of the MAbs. N-R variant organisms were like the wild type in that they showed much variation in the amounts of MAb they bound.     

Comparative Analysis of Two Meningococcal Immunotyping Monoclonal Antibodies by Resonant Mirror Biosensor and Antibody Gene Sequencing

Lipooligosaccharide (LOS) is a major surface component of the cell walls of Neisseria meningitidis, which is important for its roles in pathogenesis and antigenic variation, as a target for immunological typing, and as a possible vaccine component. Although the structures of many antigenic variants have been determined, routine immunological typing of these molecules remains problematic. Resonant mirror analysis was combined with gene sequencing to characterize two monoclonal antibodies (MAbs) used in typing panels that were raised against the same LOS immunotype, L3,7,9. The two MAbs (MAb 4A8-B2 and MAb 9-2-L379) were of the same immunoglobulin subtype, but while MAb 9-2-L379 was more than a 1,000-fold more sensitive in immunotyping assays of both whole meningococcal cells and purified LOS, MAb 4A8-B2 was more specific for immunotype L3,7,9. The differences in sensitivity were a consequence of MAb 9-2-L379 having a 44-fold-faster association constant than MAb 4A8-B2. Comparison of the amino acid sequences of the variable chains of the MAbs revealed that they had very similar heavy chains (81% amino acid sequence identity) but diverse light chains (54% sequence identity). The differential binding kinetics and specificities observed with these MAbs were probably due to differences in the epitopes recognized, and these were probably a consequence of the different immunization protocols used in their production.     

Specific detection of Haemophilus influenzae type b lipooligosaccharide by a polymyxin B monoclonal antibody assay

A monoclonal antibody (MAb)-based enzyme immunoassay was developed for detection of Haemophilus influenzae type b (Hib) lipooligosaccharides (LOS). The high affinity of polymyxin B for lipid A was used to bind the Hib LOS to microtiter wells. The immobilized LOS was detected with MAbs directed against the oligosaccharide component of Hib endotoxin. Hib LOS concentrations were measured in in vitro samples and in cerebrospinal fluid (CSF) sample obtained from rabbits with experimental Hib meningitis. The sensitivity of the assay was 1 ng LOS/ml sample and the results obtained with this assay correlated significantly with those obtained with the standard Limulus amebocyte lysate assay. This new assay provides a method for specific detection of Hib LOS in CSF samples and in aqueous laboratory fluids. This general methodology should also be useful for experimental research involving specific LPS/LOS molecules.     

Neisseria lactamica and Neisseria meningitidis share lipooligosaccharide epitopes but lack common capsular and class 1, 2, and 3 protein epitopes

Neisseria lactamica, a common human pharyngeal commensal, contributes to acquired immunity to Neisseria meningitidis. To define the surface antigens shared between these two species, we used monoclonal antibodies (MAbs) to study 35 N. lactamica strains isolated in various parts of the world for cross-reactivity with meningococcal capsules, outer membrane proteins, and lipooligosaccharides (LOS). No N. lactamica strain reacted significantly with MAbs specific for capsular group A, B, C, Y, or W, and we were unable to extract capsular polysaccharide from them. Only 2 of 33 strains reacted weakly with MAbs against class 2 serotype proteins P2b and P2c. None reacted with MAbs specific for meningococcal class 1 protein P1.2 or P1.16 or class 2/3 serotype protein P2a or P15. Most N. lactamica strains (30 of 35) bound one or more of seven LOS-specific MAbs. Two LOS epitopes, defined by MAbs O6B4 and 3F11, that are commonly found on pathogenic Neisseria species were found on 25 of 35 N. lactamica. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblotting showed that the LOS of N. lactamica are composed of multiple components that are physically and antigenically similar to the LOS of pathogenic Neisseria species. Among four other commensal neisserial species, only Neisseria cinerea shared LOS epitopes defined by MAbs O6B4 and 3F11. Previous studies have shown that pharyngeal colonization with N. lactamica induces bactericidal antibodies against the meningococcus. We postulate that shared N. lactamica and meningococcal LOS epitopes may play an important role in the development of natural immunity to the meningococcus.     

Specific detection of Haemophilus influenzae type b lipooligosaccharide by immunoassay.

Three monoclonal antibody (MAb)-based immunoassays were developed for specific detection of Haemophilus influenzae type b (Hib) lipooligosaccharide (LOS). (i) Hib LOS was captured onto microtiter plates by polyclonal Hib-directed antibodies and detected with MAbs to the oligosaccharide component of Hib LOS in an enzyme-linked immunosorbent assay, (ii) The high affinity of polymyxin B for lipid A was used to bind Hib LOS to microtiter wells, and the oligosaccharide-specific MAbs were used as the detection system in the polymyxin B-MAb assay. (iii) Hib LOS solubilized in detergent was captured by MAbs, and the immobilized LOS was detected with a chromogenic Limulus amebocyte lysate method in the immunolimulus assay. Endotoxin concentrations were measured in in vitro samples and cerebrospinal fluid samples from rabbits with experimental Hib meningitis. The results were compared with those obtained with the standard chromogenic Limulus amebocyte lysate assay. There were significant correlations between the results of all four assays. These new immunoassays provide methods for specific detection of Hib LOS in laboratory fluids and in research involving quantification of Hib endotoxin in experimental animal models.     

Electromorphic characterization and description of conserved epitopes of the lipooligosaccharides of group A Neisseria meningitidis

We studied the lipooligosaccharides (LOS) of 28 group A Neisseria meningitidis of epidemiologically diverse origins to investigate whether each of the LOS serotypes found in serogroup A could be identified physically as well as antigenically. Using a dot blot assay with LOS-specific monoclonal antibodies (MAbs), we identified four epitopes that were serotype specific. The LOS from strains of each serotype were electromorphically and antigenically distinct when analyzed by silver-stained sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunoblotting. The LOS of L8 strains contained a 3,600-Mr component that bound the L8 MAb. The LOS of L9 strains contained two major components of 4,500 and 4,200 Mr. They bound the L9 MAb to the larger component. The LOS of L10 strains had a single major component of 4,000 Mr that bound the L10 MAb. The LOS of L11 strains contained a major 3,600-Mr component that could not be distinguished from the 3,600-Mr LOS of L8 strains by SDS-PAGE but that bound the L11 MAb. LOS of group A strains contained a highly conserved epitope in addition to a serotype-specific epitope. This was identified by a MAb that bound to all the strains on dot-blots and to multiple LOS components of various Mrs on immunoblots. We conclude that the LOS which bear the L9, L10, and L11 determinants are physically distinct and can be identified by SDS-PAGE or MAb binding or both. L8 and L11 are both borne on a 3.6-kilodalton LOS and can only be distinguished serologically.     

Identification of a new locus involved in expression of Haemophilus influenzae type b lipooligosaccharide.

Previous studies have shown that changes in the expression of the Haemophilus influenzae type b (Hib) lipooligosaccharide (LOS) epitope reactive with monoclonal antibody (MAb) 5G8 can be correlated with alterations in the virulence of some Hib strains. To identify the locus involved in expression of this particular LOS epitope, a genomic library was constructed in the plasmid shuttle vector pGJB103 from Hib strain DL42, which constitutively expressed LOS reactive with MAb 5G8. This library was used to transform a second Hib strain (DL180) that normally does not express this LOS epitope, and a recombinant clone was identified that bound MAb 5G8. Subcloning of different regions of the Hib DL42 DNA insert in this recombinant plasmid determined that a 1.9-kb EcoRI fragment, designated lex-2, was responsible for transforming Hib strain DL180 to reactivity with MAb 5G8. Nucleotide sequence analysis revealed the presence of two contiguous open reading frames (ORFs) in lex-2, the first of which contained 18 tandem repeats of the nucleotide tetramer GCAA near its 5' end. Sequence analysis of PCR-derived products from MAb 5G8-reactive and -nonreactive Hib DL180 colonies established that 18 GCAA repeats were associated with expression of the LOS epitope that bound MAb 5G8. Mutational analysis determined that a functional ORF 2 was essential for expression of the MAb 5G8-reactive LOS epitope. The nucleotide tetramer GCAA repeat present in ORF 1 was also detected in at least two different chromosomal regions in all Hib strains tested. The availability of the cloned lex-2 locus should facilitate future analysis of the complex regulatory mechanisms involved in expression of LOS epitopes by this pathogen.     

Immunogenic proteins in cell-free culture supernatants of Haemophilus influenzae type b.

Cell-free culture supernatant (CFCS) prepared from Haemophilus influenzae type b (Hib) was examined for the presence of soluble Hib proteins. Two proteins with apparent molecular weights of 100,000 (100K) and 116K were predominant in the CFCS, and antibodies directed against these proteins could be detected by radioimmunoprecipitation or Western blot analyses of serum from adult rats immunized with Hib. Radioimmunoprecipitation analyses and sodium dodecyl sulfate-polyacrylamide gel electrophoresis of these two proteins demonstrated that the 100K CFCS protein was also present on the cell surface of Hib, whereas the 116K CFCS protein was only detectable in culture supernatants. Both the 100K and 116K CFCS proteins were immunogenic in human infants with Hib meningitis and in infant rats systemically infected with Hib. In addition, the first detectable antibodies produced in these Hib-infected rats against Hib proteins were specific for the 100K protein in both its CFCS and cell-associated forms. These two CFCS proteins were also immunogenic in rats immunized with CFCS in the absence of Hib infection. Monoclonal antibody directed against the 100K protein reacted with 34 of 55 Hib strains examined by using a colony blot radioimmunoassay. The immunogenicity of the 100K and 116K CFCS proteins suggests that one or both of these proteins may have potential for vaccine development, either by themselves or covalently coupled to Hib capsular polysaccharide.     

Characterisation and epitope analysis of monoclonal antibodies to virions of clover yellow vein and Johnsongrass mosaic potyviruses

Summary Mouse monoclonal antibodies (MAbs) against the Australian B strain of clover yellow vein (C1YVV-B) and the JG strain of Johnsongrass mosaic (JGMV) potyviruses were produced, characterised and the epitopes with which they reacted were deduced. Using intact particles of C1YVV a total of ten MAbs were obtained which reacted strongly with C1YVV-B in an enzyme-linked immunosorbent assay and Western blots. Four of these MAbs (1, 2, 4, and 13) were found to be ClYVV-specific, as they reacted with all five C1YVV strains from Australia and the U.S.A. but not with 11 strains of bean yellow mosaic (BYMV), pea mosaic (PMV), and white lupin mosaic (WLMV) viruses which, together with C1YVV, form the BYMV subgroup of potyviruses. These MAbs failed to react with eight other potyvirus species, including six which infect legumes like the viruses in the BYMV subgroup. The C1YVV MAb 10 was found to be BYMV subgroup-specific. It reacted strongly with 15 of the 16 strains of viruses in the subgroup and gave no reaction with eight other potyviruses. The other five C1YVV MAbs reacted with varying degrees of specificity with the BYMV subgroup viruses and also with other potyviruses. Eight of the C1YVV MAbs (1, 2, 4, 5, 13, 17, 21, and 22) reacted with the intact coat proteins only and not with the truncated (minus amino terminus) coat protein of C1YVV suggesting that the epitopes for these MAbs are located in the surface-exposed, amino-terminal region of the C1YVV coat protein. Comparison of published coat protein sequences of BYMV and C1YVV isolates indicated that the epitopes for the four ClYVV-specific MAbs may be in the amino-terminal region spanning amino acid residues 18 to 30, whereas those for the other four MAbs may be located in the first 17 amino-terminal amino acid residue region. The epitopes that reacted with BYMV subgroup-specific MAb 10 and MAb 30 which reacted with 20 of the 24 potyvirus isolates, are probably located in the core region of C1YVV coat protein as these MAbs reacted with the intact as well as truncated coat protein of C1YVV. Analysis, in Western blot immunoassay, of 17 MAbs raised against virions of JGMV revealed that only two MAbs (1–25 and 4–30) were JGMV-specific, whereas others displayed varying degrees of specificity to different potyviruses. When these MAbs were screened against the intact and truncated (minus 67 amino-terminal amino acid residues) coat proteins of JGMV, the two JGMV-specific MAbs reacted only with the intact coat protein, whereas the other MAbs reacted with the intact as well as with truncated coat proteins, in Western blots. These results suggest that the epitopes for the two JGMV-specific MAbs are located in the surface-exposed amino-terminal 67 amino acid residue region and those for the cross-reactive MAbs are contained in the conserved core region of the JGMV coat protein. Screening of potyvirus MAbs against intact and truncated coat proteins thus appears to be a simple procedure to select virus-specific MAbs to potyviruses.     

Measurement of the human immune response to meningococcal lipooligosaccharide antigens by using serum to inhibit monoclonal antibody binding to purified lipooligosaccharide.

We developed a human inhibition monoclonal enzyme-linked immunosorbent assay (HIMELISA) to investigate the human immune response to the lipooligosaccharides (LOS) of Neisseria meningitidis. Monoclonal antibodies (MAb) were used to define seven epitopes on four LOS molecules of a meningococcal strain (126E) previously shown to express immunogenic LOS epitopes. The assay could distinguish epitope-specific antibody within whole sera. Neither the specificity nor the amount of the antibody measured by HIMELISA in sera of vaccinates changed during the immune response to meningococcal capsular polysaccharides, a chemically unrelated antigen. By using the HIMELISA, it was determined that sera from adults convalescing from meningococcal disease strongly inhibited MAb binding to two of the seven defined epitopes. The 3.6-kilodalton LOS of strain 126E expressed both of these epitopes. In addition, one of the inhibited epitopes was also expressed on the 4.0-kilodalton LOS of strain 126E. The convalescent-phase sera inhibited MAb binding to these two epitopes when they were expressed on LOS of diverse meningococcal strains. An acute-phase serum blocked MAb to the two epitopes to a lesser degree than did a convalescent-phase serum from the same patient. Immunoblotting the sodium dodecyl sulfate-polyacrylamide gel electrophoresis-separated LOS with convalescent-phase sera confirmed the specificity of the human anti-LOS antibody identified by HIMELISA.     

Conserved and nonconserved epitopes among Haemophilus influenzae type b pili.

We investigated the binding of antibodies raised against four different Haemophilus influenzae type b (Hib) plus antigen preparations to the native pili and denatured pilins of 21 Hib isolates. Antibodies against live piliated Hib M43p+, adsorbed with a nonpiliated variant to remove nonpilus antibodies, bound to 18 of the 21 piliated Hib isolates in immunodot assays but failed to recognize the denatured pilins from any of the strains in Western immunoblot assays. Similarly, antibodies against purified native pili of strain E1ap+ bound to 11 of 21 piliated strains in immunodot assays but to only 2 of 21 piliated strains in Western blot assays. The native pili of all 21 strains were recognized by one or both of the antisera. These observations suggest that the immunodominant epitopes of native Hib pili are dependent on conformation and are moderately conserved. In contrast, antibodies against denatured M43p+ pilin or against a peptide derived from amino acids 5 through 17 of M43p+ pilin failed to bind to native pili from any of the 21 piliated isolates on immunodot assay. However, both sera recognized the denatured pilins from all the piliated strains on Western blot assay. These data indicate that the immunodominant epitopes of denatured pilins are highly conserved among different strains of Hib but are unavailable on intact pili for antibody binding.     

Production and characterization of monoclonal antibodies to porcine group C rotaviruses cross-reactive with group A rotaviruses.

Five monoclonal antibodies (MAbs) to porcine group (gp) C rotaviruses (Cowden and Ah strains) reactive with both gp A and C rotaviruses in cell culture immunofluorescence (CCIF) tests were produced and characterized. These MAbs reacted with three strains of gp A and two strains of gp C rotaviruses in a CCIF test and were classified into two groups based on their CCIF titers. The MAbs also reacted to various degrees with cell-culture-propagated porcine gp C rotavirus (Cowden) and bovine gp A rotavirus (NCDV) in an enzyme-linked immunosorbent assay by using the MAbs as capture antibodies. Fecal samples containing human, bovine, and porcine strains of gp A and C rotaviruses were positive when tested using one of the MAbs in this assay. The MAbs recognized VP6 of gp A rotavirus and the VP6 counterpart (41-kDa protein) of gp C rotavirus in a Western blot assay. Results of competitive binding assays on four MAbs indicated that gp A and gp C rotaviruses share three overlapping epitopes within a single antigenic domain. These results suggest that gp A and C rotaviruses share a common antigen located on the VP6 protein, which is recognized by certain MAbs in various serologic assays.