The potential protective effect of immunization with outer-membrane protein I from Neisseria gonorrhoeae

Immunization of rabbits with outer membranes (OM) of Neisseria gonorrhoeae produced antibodies directed against outer-membrane proteins PI and PIII. The antibodies directed against PIII reacted equally well on Western blots with all strains tested, but antibodies directed against PI reacted only with the homologous strain. When purified PIB was used for immunization the immune response was quite different: the sera obtained reacted with both homologous and heterologous PIB types and also reacted with strains expressing PIA. Western blotting of peptides produced by sequential cleavage of PIB revealed that the antigenic determinants recognized by anti-OM sera were predominantly located in the central surface-exposed region of PIB, as is the epitope recognized by the protective anti-PIB monoclonal antibody SM24. In contrast antibodies produced by immunization with purified PI reacted with antigenic determinants in the N-terminal portion of PIB. Nevertheless these determinants are accessible to immune attack on the native protein since the anti-PI sera were opsonic and were strongly bactericidal for both PIA- and PIB-expressing strains.     

Characterization of antibodies to chicken riboflavin carrier protein. Immunoneutralizing ability of antibodies to a sequence-specific region of the protein.

The properties of antibodies generated in rabbits against native riboflavin carrier protein (cRCP), riboflavin carrier protein that had been denatured/renatured by SDS treatment (SDS-RCP) or disulphide-bond-reduced then S-carboxymethylated (Carb-RCP) were studied. SDS-RCP could displace native RCP in radioimmunoassay (r.i.a.), whereas Carb-RCP could not. By using antibodies raised in five different rabbits against native cRCP, 125I-labelled Carb-RCP could bind between 0 and 30% of the native antibodies. Antibodies raised against native RCP appear to be largely directed towards specific conformational determinants of RCP. Carb-RCP displaced native RCP in an r.i.a. using antibodies raised against SDS-RCP. SDS denaturation presumably unmasks cryptic epitopes in native RCP. Carb-RCP was a weak immunogen and elicited, presumably, antibodies to sequential epitope/epitopes. When injected into pregnant mice the antibodies caused neutralization of RCP, leading to termination of pregnancy, indicating highly conserved sequential epitopes in chicken and rodent RCP. Antibodies raised against Carb-RCP or native RCP reacted with CNBr fragments of native RCP, further confirming the presence of sequence-specific antibodies elicited by Carb-RCP.     

The antigenic structure of bovine serum albumin. Evidence for multiple, different, domain-specific antigenic determinants.

Using antiserum to native bovine albumin and antigenically active fragments of the protein, we have isolated antibodies directed to each of the three domains and to several subdomains of the albumin molecule. Using albumin and these fragments as inhibitors of the reaction between 125I-albumin and any given antibody population, we have demonstrated that: (a) each domain of albumin is antigenically distinct from each of the other domains; (b) each domain possesses a minimum of two different antigenic determinants; and (c) the entire albumin molecule possesses a minimum of six different, nonrepeating, antigenic determinants.     

Separation of neutralizing and hemagglutination-inhibiting antibody activities and specificity of antisera to sodium dodecyl sulfate-derived polypeptides of polyoma virions.

Antisera to the sodium dodecyl sulfate (SDS)-polyacrylamide gel-derived polyoma virion polypeptides were used in immunoprecipitation experiments with ethylene glycol-bis-N,N'-tetraacetic acid (EGTA)-dissociated polyoma virions and capsids to determine the specificity of the antipolyoma polypeptide sera. Additionally, a technique for applying 125I-labeled immunoglobulins to SDS-polyacrylamide gels was used to explore the antigenic specificities of the antisera. The results demonstrated that antisera directed against the SDS-gel-derived VP1, VP2, and VP3 did not react with native polyoma proteins, but would react with the appropriate antigens on denatured polyoma proteins. Antisera against the histone region of such gels reacted with native and denatured polyoma VP1. Separation of neutralizing antibodies from hemagglutination inhibition (HAI) antibodies to polyoma in antisera directed against the histone region of polyacrylamide gels was done by using a polyoma capsid affinity column. The antibodies eluted from this column which did not react with capsids possessed only neutralizing activity, whereas antibodies which bound to capsids possessed only HAI activity. These isolated immunoglobulin G fractions were then used in immunoprecipitation experiments to demonstrate that the antigenic determinants responsible for the HAI activity of the serum were contained on a 16,000-dalton polypeptide, whereas those antigenic determinants responsible for neutralizing activity were contained on a 14,000-dalton polypeptide. Both of these polypeptides present in the histone region of the SDS-gels appeared to be derived from the major virion protein VP1.     

Characterization of antigenic properties of horseradish peroxidase with monoclonal antibodies

Monoclonal antibodies (mcAbs) specific to alkaline isoenzymes of horseradish peroxidase were used to characterize the antigenic properties of horseradish peroxidase. The results of a competitive binding assay indicated that monoclonal antibodies can be divided into three groups directed against distinct parts of the protein. The interaction of monoclonal antibodies with native and modified horseradish peroxidase showed also three different patterns of reactivity. Antibodies from groups I and II are directed against epitopes which are conformational and formed by tertiary structure elements. Epitopes recognized by these antibodies are sensitive to heme removal or partial denaturation of peroxidase. Antibodies from group III bind specifically with epitopes consisting of primary or secondary structure elements. The antigenic determinants recognized by antibodies from group III PO ₁ and 36F ₉ were shown to be linear (continuous) and formed by amino acid residues 261-267 and 271-277, respectively, as determined by the peptide scanning method (PEPSCAN). The location of revealed linear antigenic determinants in the molecular structure of peroxidase is analyzed.     

Native and non-native conformation-specific antibodies directed to the loop region of hen egg-white lysozyme

Two types of antibodies were differentiated in conventional guinea pig anti-hen egg-white lysozyme (HEL) antisera. The specificities of both antibodies were directed to the loop I region (mainly directed to Cys64--Cys80 loop) but the antibodies were distinct in respect of reactivities with native HEL. One type of antibody reacted with HEL and loop-peptides of HEL but not with the completely reduced and carboxymethylated form of loop-peptides (native conformation specific antibody: NC-Ab). On the other hand, the other type of antibody did not react with HEL but reacted with loop-peptides and also with the completely reduced and carboxymethylated form of loop-peptides (non-native conformation specific antibody: NNC-Ab). The percentage of NNC-Ab in loop I reactive antibody fraction from pooled guinea pig anti-HEL antisera obtained by two different immunization methods was about 25%. Since the affinities of the NNC-Ab to loop-related peptides were higher by one order of magnitude than those of the NC-Ab to the same peptides, care is necessary in evaluating antigenic determinants in native protein. The immunization of guinea pigs with Ploop I . II [sequence 57-107 (Cys64-Cys80, Cys76-Cys94)] evoked an antibody population having specificity similar to but not identical with that of the NNC-Ab type anti-loop I antibody in conventional anti-HEL antisera.     

Early regenerative responses induced by monoclonal antibodies directed against a surface glycoprotein of goldfish retinal ganglion cells.

Monoclonal antibodies directed primarily against antigenic determinants associated with the goldfish optic nerve were prepared and characterized. One selected clone 23-4-C(IgG2a), detected antigenic determinants of glycoprotein nature with an apparent mol. wt. of 140 000. Following injury the level of these molecules increased with a peak at 5-7 days after the lesion (2- to 3-fold higher than the basal level). The results strongly suggest that the increase derives, at least partially, from a real increment in the level of these molecules in the retinal ganglion cells rather than from changes in accessibility. Immunofluorescence studies indicate that the retinal ganglion cells carry the antigenicity. Intraocular injection of the monoclonal antibodies, concomitantly with crush injury, resulted in an earlier and higher regenerative response, reflected by sprouting capacity, protein synthesis and accumulation of radiolabeled material in the tectum contralateral to the side of injury. This may indicate that the antibodies directly activate retinal cells via interaction with surface molecules. Alternatively, the antibodies may be directed against surface molecules which are associated with axonal growth inhibitors, and may therefore mask these surface antigens from further interaction with their native substrate.     

Neutralization of native human gamma interferon (HuIFN gamma) by antibodies to a synthetic peptide encoded by the 5' end of HuIFN gamma cDNA

A synthetic peptide corresponding to the N-terminal amino acid sequence of human gamma-interferon (HuIFN gamma), based on the cDNA sequence, was used to produce antibodies in rabbits that were reactive with native HuIFN gamma. Antibodies from all immunized rabbits neutralized the antiviral activity of HuIFN gamma. Significant neutralization of other HuIFN and mouse IFN was not observed. The peptide had the sequence Cys-Tyr-Cys-Gln-Asp-Pro-Tyr-Val-Lys-Glu-Ala-Glu-Asn-Leu-Lys-Lys-Tyr-Phe-Asn-Ala ,and was coupled to keyhole limpet hemocyanin by disulfide linkage with the use of cystamine. The specificity of the antibodies produced to the peptide was compared to that of antibodies produced to native HuIFN gamma by neutralization of HuIFN gamma and by reactivity with peptide in the enzyme-linked immunosorbent assay (ELISA). The ratio of anti-peptide antibody neutralization of HuIFN gamma vs reactivity with peptide in the ELISA was at least 28-fold lower than for anti-HuIFN gamma antibody. Thus the antibodies to peptide and to HuIFN gamma were directed primarily against different determinants on native HuIFN gamma or the anti-HuIFN gamma antiserum probably contained antibodies to additional determinants. The anti-peptide antibodies should be useful for further characterization and purification of HuIFN gamma.     

Monoclonal antibody as a probe for structure and function of an Escherichia coli outer membrane protein

Eight independently derived monoclonal antibodies directed against the LamB protein were produced and characterized. By using these antibodies as probes, we identified four distinct topological and functional regions in the LamB molecule. Four monoclonal antibodies recognize antigenic determinants of the protein exposed on the outer side of the membrane. Two of these have their binding sites located in a region involved in maltose transport. One monoclonal antibody presumably binds to a determinant which is normally hidden in the membrane and three monoclonal antibodies recognize determinants facing the periplasmic space.     

Expression of Noncovalent Hepatitis C Virus Envelope E1-E2 Complexes Is Not Required for the Induction of Antibodies with Neutralizing Properties following DNA Immunization

Interactive glycoproteins present on the surface of viral particles represent the main target of neutralizing antibodies. The ability of DNA vaccination to induce antibodies directed at such structures was investigated by using eight different expression plasmids engineered either to favor or to prevent interaction between the hepatitis C virus (HCV) envelope glycoproteins E1 and E2. Independently of the injection route (intramuscular or intraepidermal), plasmids expressing antigens capable of forming heterodimers presumed to be the prebudding form of the HCV envelope protein complex failed to induce any significant, stable antibodies following injection in mice. In sharp contrast, high titers of antibodies directed at both conformational and linear determinants were induced by using plasmids expressing severely truncated antigens that have lost the ability to form native complexes. In addition, only a truncated form of E2 induced antibodies reacting against the hypervariable region 1 of E2 (specifically with the C-terminal part of it) known to contain a neutralization site. When injected intraepidermally into small primates, the truncated E2-encoding plasmid induced antibodies able to neutralize in vitro the binding of a purified E2 protein onto susceptible cells. Because such antibodies have been associated with viral clearance in both humans and chimpanzees, these findings may have important implications for the development of protective immunity against HCV.     

Antigen-antibody interaction. Synthetic peptides define linear antigenic determinants recognized by monoclonal antibodies directed to the cytoplasmic carboxyl terminus of rhodopsin

The specificities of four monoclonal antibodies rho 1D4, 1C5, 3A6, and 3D6 prepared by immunization of rod outer segments containing rhodopsin have been defined using synthetic peptides. All of these antibodies interact within the 18 residues at the COOH terminus of rhodopsin and recognize linear antigenic determinants of 4-11 residues. Twenty-seven synthetic peptide analogs of varying lengths of native sequence or containing single amino acid substitutions at each position of the COOH-terminal 18 residues have provided some insight into the mechanism of antigen-antibody binding. Our results clearly demonstrate that antibodies can be highly specific at key positions as shown by the loss of binding on single amino acid substitutions in the binding site. In contrast single amino acid substitutions at other positions in the binding site only affect affinity for some antibodies. Ionic interactions can dominate immunogenic determinants. Immunogenic determinants are not restricted to highly charged hydrophilic regions on the surface of a protein and may be dominated by hydrophobic interactions. Although certain side chains can dominate the interaction of the antigen with antibody, our results are in agreement with the interpretation that the free energies of all the contact points are additive and a certain free energy must be present to achieve binding. Antibodies with different specificities directed to the same region of the protein antigen can be produced in an immune response. Peptide antigens representing regions of a protein antigen bind best to the anti-protein antibody when the sequence is shortened to contain only those residues binding to the specificity site in the antibody. Cross-reactivity between protein antigens can be explained by conservation of the critical residues in the combining site.     

Endocytosis of HLA and H-2 molecules on transformed murine cells measured by fluorescence dequenching of liposome-encapsulated carboxyfluorescein.

We have studied internalization of cell surface proteins encoded by genes of the human major histocompatibility complex (HLA) transferred into murine L cells, in comparison with mouse (H-2) histocompatibility determinants. This internalization was measured by the use of monoclonal antibodies directed at these determinants, to which were bound methotrexate- and carboxyfluorescein-containing liposomes covalently coupled to protein A. In addition to the effect of methotrexate on the cells, the technique of fluorescence self-quenching release was used to measure the kinetics of internalization for single cells using a flow cytofluorometer. The native and foreign gene products were internalized in an apparently identical manner. These techniques can be applied to cells expressing genes with altered or deleted segments thus providing a basis for the analysis of the effect of sequence modifications on the internalization of the encoded molecule.     

Immunoregulation of the anti-bovine serum albumin response by polyclonal and monoclonal antibodies

Monoclonal or polyclonal antibodies directed toward determinants on limited structures of bovine serum albumin (BSA) (P505-582) were shown to regulate the entire anti-bovine serum albumin (BSA) immune response when passively administered to mice 24 hr prior to immunization. Regulation was observed as suppression of the humoral IgG immune response toward all BSA determinants except those on fragment P505-582. By Day 21 suppression of humoral response was most pronounced toward determinants present on the carboxy terminal end of the molecule (N 307-582). These observations demonstrate that monoclonal antibodies directed against a single determinant on a protein molecule have the capacity to regulate the immune response to a multiplicity of determinants present on the same protein. The data lend support to concepts of antibody-induced regulation by induction of suppressor cells or idiotype recognition.     

Upregulation of capsule enables Streptococcus pyogenes to evade immune recognition by antigen-specific antibodies directed to the G-related alpha2-macroglobulin-binding protein GRAB located on the bacterial surface

One of the major problems associated with the development of a vaccine against Streptococcus pyogenes is the ability of this pathogen to escape recognition by antibodies directed against conserved surface-associated determinants and to establish infection in the setting of an acquired immune response. Identification of the mechanism(s) used by S. pyogenes to avoid recognition by antigen-specific antibodies and escape killing in blood was the focus of this study. We showed here that S. pyogenes was capable of surviving in human blood containing high levels of antibodies directed against the G-related alpha2-macroglobulin-binding protein GRAB, a highly conserved bacterial surface protein. S. pyogenes upregulated the hyaluronic acid capsule production during incubation with human blood, suggesting that the capsule may structurally minimize antibody access to protein GRAB. This hypothesis was confirmed by the ability of anti-GRAB antibodies to promote opsonophagocytosis of a capsule-deficient mutant of S. pyogenes but not of the encapsulated wild-type strain. Capsule upregulation and protection of S. pyogenes from opsonophagocytosis in the presence of anti-GRAB antibodies was also observed in a murine model of streptococcal infection. Thus, masking of surface immunogenic determinants by the hyaluronic acid capsule may constitute a novel mechanism of S. pyogenes for evasion of antigen-specific antibodies.     

Modification of alpha-crystallin subunit chains and formation of alpha-neoprotein molecules: role of SH groups

Immunoadsorbents with bound antibodies restricted to determinants dependent on alpha-crystallin's quaternary structure permitted the fractionation of the population of 125I-labeled alpha-crystallin molecules, treated by iodoacetic acid, into molecules in which the native structure was still preserved and molecules with a completely different quaternary structure than the native protein. Parallel experiments with [14C]iodoacetic acid yielded information on the percentage of blocked SH groups in each of the above two fractions. The presence of molecules formed by A with B-chain association was established by sequential binding first to an immunoadsorbent with antibodies restricted to determinants located on alpha-crystallin's A-subunit chains as ligand and second, after desorption, to an immunoadsorbent with antibodies to B chains as ligand. With the aid of these techniques, it was established that (i) The modified alpha-crystallin molecules with quaternary determinants of the native protein contained a maximum of 23% blocked SH groups, indicating that the carboxymethylation involved only the fast-reacting surface SH groups. (ii) The modified alpha-crystallin molecules without the native protein's quaternary structure were built by a different association between A and B subunits than in alpha-crystallin, indicating formation of alpha-neoprotein molecules. (iii) Monomeric A chains with all SH groups carboxymethylated, and monomeric B chains in a ratio of 1A:5B, 2A:1B, and 5A:1B in urea solution, associate on dialysis, forming alpha-neoprotein molecules.     

Antigenic analysis of the repeat domain of the circumsporozoite protein of Plasmodium vivax

In the present study we analyzed the fine specificity of mouse monoclonal and human polyclonal antibodies directed against the repeat domain of the circumsporozoite (CS) protein of the human malaria parasite, Plasmodium vivax. Five synthetic peptides, representing monomeric and dimeric repeats of this malarial antigen, were assayed for their capacity to inhibit the binding of these antibodies to a yeast-derived recombinant CS protein. The results revealed the existence of at least two distinct repeated overlapping epitopes in the CS protein of P. vivax. Furthermore, polyclonal sera contain antibodies which recognize additional determinants not represented by the synthetic repeat peptides. Some of these sera contain antibodies recognizing a region flanking the repeat domain (region I). The present findings are in contrast with the antibody response in rodents and humans to the Plasmodium falciparum CS protein, which is directed against a single repeated immunodominant epitope.     

Quantitative specificity‐based display library screening identifies determinants of antibody‐epitope binding specificity

Despite the critical importance of molecular specificity in bimolecular systems, in vitro display technologies have been applied extensively for affinity maturation of peptides and antibodies without explicitly measuring the specificity of the desired interaction. We devised a general strategy to measure, screen, and evolve specificity of protein ligand interactions analogous to widely used affinity maturation strategies. The specificity of binding to target and nontarget antibodies labeled with spectrally distinct fluorophores was measured simultaneously in protein mixtures via multiparameter flow cytometry, thereby enabling screening for high target antibody specificity. Isolated antibody specific ligands exhibited varying specificity, revealing critical amino acid determinants for target recognition and nontarget avoidance in complex mixtures. Molecular specificity in the mixture was further enhanced by quantitative directed evolution, yielding a family of epitopes exhibiting improved specificities equivalent, or superior to, the native peptide antigen to which the antibody was raised. Specificity screening simultaneously favored affinity, yielding ligands with three‐fold improved affinity relative to the parent epitope. Quantitative specificity screening will be useful to screen, evolve, and characterize the specificity of protein and peptide interactions for molecular recognition applications.     

Immunological studies of acetylcholine receptors

Immunochemical techniques for the study of acetylcholine receptors are described. Immunization of rabbits, rats, guinea pigs, and goats with acetylcholine receptor protein purified from Electrophorus electric organ tissue results in muscular weakness and death due to impaired neuromuscular transmission. Serum from immunized animals contains high concentrations of antibodies directed at receptors from the electric organ and low concentrations of antibodies directed at receptors from skeletal muscle. The detailed similarities between the disease of receptor-immunized animals, “experimental autoimmune myasthenia gravis” (EAMG), and myasthenia gravis are compared. Reactions of antisera from animal with EAMG with receptor from Electrophorus and Torpedo are studied. Antireceptor antibodies in these antisera are directed predominantly at determinants other than the acetylcholine-binding site.     

A carboxyl-terminal fragment of Plasmodium falciparum gp195 expressed by a recombinant baculovirus induces antibodies that completely inhibit parasite growth.

The major merozoite surface Ag (gp195) of Plasmodium falciparum has been shown to protect monkeys against parasite infection, and gp195-based synthetic peptides and recombinant polypeptides have been evaluated as potential malaria vaccines. A major problem in developing a gp195-based recombinant vaccine has been the difficulty in obtaining a recombinant polypeptide that is immunologically equivalent to the native protein. In this study, the carboxyl-terminal processing fragment (p42) of gp195 was produced in yeast and in a baculovirus recombinant system. Immunologic analyses indicated that the secreted baculovirus p42 (BVp42) expressed native, disulfide-dependent conformational epitopes, whereas these epitopes were poorly represented in the intracellular yeast p42. BVp42, but not yeast p42, was also recognized by the majority of gp195-specific antibodies of animals immunized with purified native gp195, indicating that the anti-gp195 response of these animals was focused on conformational determinants of the p42 processing fragment. Sera against native gp195 of congenic mice of diverse H-2 haplotypes recognized the BVp42 polypeptide, demonstrating that a genetically heterogeneous population is capable of responding to p42 epitopes. BVp42 was highly immunogenic and induced high titers of antibodies that were cross-reactive with purified native gp195 in an ELISA and also reacted with schizonts and merozoites by immunofluorescence. Anti-BVp42 antibodies completely inhibited the in vitro growth of the malaria parasite, whereas anti-yeast p42 antibodies had no effect. These results indicate that native, conformational epitopes of p42 are critical for the induction of gp195-specific, parasite growth-inhibitory antibodies and that the BVp42 polypeptide efficiently induces antibodies specific for these native determinants.     

Preparation and characteristics of monoclonal antibodies against GTP-binding protein from the bovine retina

Five monoclonal antibodies against the native GTP-binding protein (transducin) from bovine retina have been prepared. By immunoblotting and immunoenzymatic analysis of the isolated alpha- and gamma-subunits of transducin and the beta gamma-subunit complex it was determined that two monoclonal antibodies A3G7 and A3C10 recognize linear antigenic determinants on the alpha-subunit, two other, A3E4 and 3B3, bound specifically to the gamma-subunit, and monoclonal antibodies 1C3 interact only with native transducin. Both antibodies against the alpha-subunit inhibited transducin GTPase activity, whereas antibodies A3E4, 3B3 and 1C3 did not affect it.