Induction of anti-meningitis immunity using the synthetic peptides. I. The immunoreactive synthetic fragments of porin A from Neisseria meningitidis

Fourteen peptides corresponding to sequences of all the exposed and some of the transmembrane protein regions of porin A from the outer membrane of Neisseria meningitidis strain B:15:P1.7,16 were synthesize. Mice of various lines were immunized with the free peptides not conjugated with any protein carrier. It was shown that the majority of the peptides possess immunogenic properties. Two peptides were identified binding to antibodies present in the serum of mice after meningitis. Protective properties of a number of the synthesized peptides were studied, and three peptide sequences inducing mice protection from an experimental infection with N. meningitidis were identified.     

Induction of Anti-Meningitis Immunity by Synthetic Peptides: II. Immunoactive Synthetic Fragments of the OpaB Protein from Neisseria meningitidis

Mice of various lines were immunized by 11 synthetic peptides that correspond to the sequences of fragments of the OpaB protein from the outer membrane of Neisseria meningitidis involving the known human T-helper epitopes and all the potential mouse T-helper epitopes calculated for the protein. The mice were immunized with the free peptides without their conjugation with a protein carrier. Most of the peptides were found to induce in mice the production of antipeptide antibodies. Mice protection against the experimental infection by a virulent strain of N. meningitidis of the B serotype was studied, and two peptides were shown to exert the most pronounced protective effect.     

Induction of Antimeningitis Immunity by Synthetic Peptides: III. Immunoactive Synthetic Fragments of the NspA Protein from Neisseria meningitidis

Four potentially immunoactive peptide fragments of the NspA protein from the outer membrane of the Neisseria meningitidis bacterium were synthesized in order to create a synthetic vaccine against meningococcal infection by the serogroup B bacterium. Mice of various lines were immunized with free peptides nonconjugated with a protein carrier. All the synthetic peptides were shown to induce the production of the antipeptide antibodies in mice. A peptide capable of inducing a decrease in the number of bacteria in blood and the protection of infected animals from death was found in the experiments on the protection of the animals infected with two strains of the Neisseria meningitidis serogroup B.     

Conformational and functional studies of three gelsolin subdomain-1 synthetic peptides and their implication in actin polymerization

Gelsolin, a calcium and inositol phospholipid-sensitive protein, regulates actin filament length. Its activity is complex (capping, severing, etc.) and is supported by several functional domains. The N-terminal domain alone (S1), in particular, is able to impede actin polymerization. Our investigations were attempted to precise this inhibitory process by using synthetic peptides as models mimicking gelsolin S1 activity. Three peptides issued from S1 and located in gelsolin—actin interfaces were synthesized. The peptides (15–28, 42–55, and 96–114 sequences) were tested for their conformational and actin binding properties. Although the three peptides interact well with actin, only peptide 42–55 affects actin polymerization. A detailed kinetic study shows that the latter peptide essentially inhibits the nucleation step during actin polymerization. In conclusion, the present work shows that the binding of a synthetic peptide to a small sequence located outside the actin—actin interface is essential in the actin polymerization process. © 1997 John Wiley & Sons, Inc. Biopoly 41: 647–655, 1997     

Use of synthetic peptides to identify surface-exposed,linear B-cell epitopes within outer membrane protein F of Pseudomonas aeruginosa

In a previous study (Hughes EE, Gilleland LB, Gilleland HE Jr. [1992] Infect Immun 60:3497–3503), ten synthetic peptides were used to test for surface-exposed antigenic regions located throughout the length of outer membrane protein F of Pseudomonas aeruginosa. An additional nine peptides of 11–21 amino acid residues in length were synthesized. Antisera collected from mice immunized with each of the 19 synthetic peptides conjugated to keyhole limpet hemocyanin were used to determine which of the peptides had elicited antibodies capable of reacting with the surface of whole cells of the various heterologous Fisher-Devlin immunotypes of P. aeruginosa. Cell surface reactivity was measured by an enzyme-linked immunosorbent assay (ELISA) with whole cells of the various immunotypes as the ELISA antigens and by opsonophagocytic uptake assays with the various peptide-directed antisera, immunotype 2 P. aeruginosa cells, and polymorphonuclear leukocytes of human and murine origin. Three peptides located in the carboxy-terminal portion of protein F elicited antibodies with the greatest cell-surface reactivity. Peptide 9 (TDAYNQKLSERRAN), peptide 10 (NATAEGRAINRRVE), and peptide 18 (NEYGVEGGRVNAVG) appear to have sufficient potential for further development as vaccine candidates for immunoprophylaxis against infections caused by P. aeruginosa. A topological model for the arrangement of protein F within the outer membrane of P. aeruginosa is presented.     

Expression of meningococcal epitopes in LamB of Escherichia coli and the stimulation of serosubtype-specific antibody responses

The class 1 outer membrane protein (OMP), a major variable surface antigen of Neisseria meningitidis, is a component of novel meningococcal vaccines currently in field trials. Serological variants of the protein are also used to serosubtype meningococci. Most of the amino acid changes that give rise to antigenic variants of the protein occur in two variable regions (VR1 and VR2) that are thought to form loops on the cell surface. The polymerase chain reaction (PCR) was used to amplify the nucleotide sequences encoding VR1 and VR2 from the chromosomal DNA of N. meningitidis strain M1080. These were cloned in frame into the lamB gene of the Escherichia coli expression vector pAJC264. Whole-cell enzyme-linked immunosorbent assays (ELISAs), using monoclonal antibodies, and SDS PAGE confirmed that, upon induction, strains of E. coli carrying these constructs expressed hybrid LamB proteins containing the N. meningitidis surface loops. These strains were used to immunize rabbits and the resultant polyclonal antisera reacted specifically with the class 1 OMP of reference strain M1080 (P1.7). Immunogold labelling of meningococcal cells and whole-cell dot-blot analyses with these antisera showed that the variable epitopes were exposed on the cell surface and confirmed that this approach could be used to obtain serosubtype-specific antisera. The binding profiles of the antisera were determined from their reactions with overlapping synthetic peptides and their reactivity compared with that of relevant serosubtype-specific monoclonal antibodies. This approach was used successfully to raise antisera against two other class 1 OMP VR2s. A fourth antiserum raised against a VR2, including the P1.1 epitope, was not subtype specific.     

Antifungal properties of durancins isolated from Enterococcus durans A5‐11 and of its synthetic fragments

The aim of this work was to study the antifungal properties of durancins isolated from Enterococcus durans A5‐11 and of their chemically synthesized fragments. Enterococcus durans A5‐11 is a lactic acid bacteria strain isolated from traditional Mongolian airag cheese. This strain inhibits the growth of several fungi including Fusarium culmorum, Penicillium roqueforti and Debaryomyces hansenii. It produces two bacteriocins: durancin A5‐11a and durancin A5‐11b, which have similar antimicrobial properties. The whole durancins A5‐11a and A5‐11b, as well as their N‐ and C‐terminal fragments were synthesized, and their antifungal properties were studied. C‐terminal fragments of both durancins showed stronger antifungal activities than other tested peptides. Treatment of D. hansenii LMSA2.11.003 strain with 2 mmol l^?1 of the synthetic peptides led to the loss of the membrane integrity and to several changes in the ultra‐structure of the yeast cells. Chemically synthesized durancins and their synthetic fragments showed different antimicrobial properties from each other. N‐terminal peptides show activities against both bacterial and fungal strains tested. C‐terminal peptides have specific activities against tested fungal strain and do not show antibacterial activity. However, the C‐terminal fragment enhances the activity of the N‐terminal fragment in the whole bacteriocins against bacteria.

Significance and Impact of the Study

Antifungal properties of durancins isolated from Enterococcus durans A5‐11 and of their chemically synthesized fragments were determined. Treatment of D. hansenii LMSA2.11.003 strain with 2 mmol l^?1 of the synthetic peptides led to the loss of the membrane integrity and to several changes in the ultra‐structure of the yeast cells. This work contributes to improve understanding of molecular causes of antimicrobial activities of bacteriocins and their fragments. It may be proposed that the studied peptides affect all the yeast cellular and intramembranes including cytoplasmatic reticulum and nuclear and vacuolar membranes.     

Induction of antimeningitis immunity by synthetic peptides. II. Immunoactive synthetic fragments of OpaB protein from Neisseria meningitidis

Mice of various lines were immunized by 11 synthetic peptides that correspond to the sequences of fragments of the OpaB protein from the outer membrane of Neisseria meningitidis involving the known human T-helper epitopes and all the potential mouse T-helper epitopes calculated for the protein. The mice were immunized with the free peptides without their conjugation with a protein carrier. Most of the peptides were found to induce in mice the production of antipeptide antibodies. The mice protection against the experimental infection by a virulent strain of N. meningitidis of the B serotype was studied, and two peptides were shown to exert the most pronounced protective effect.     

Antibodies against synthetic peptide fragments of T-cadherin inhibit binding of low density proteins with T-cadherin]

Potential antigenic determinants of the atypical lipoprotein-binding proteins T-cadherin (p105) and its precursor (p130) from cells of human smooth muscles were synthesized by the solid phase method according to the Fmoc-scheme. These corresponded to the 51-61, 140-160, 161-179, 260-271, 340-352, 350-362, and 370-385 sequences of p130 and were chosen on the basis of computer analysis of its antigenic structure. The conjugates of the peptides with horseradish peroxidase were used for the immunization of mice and rabbits. Antisera against the peptides corresponding to the 140-160, 161-179, and 260-271 sequences of p105 were shown by immunoblotting to react with p105, which we isolated from the vascular cells of smooth muscles and earlier identified as T-cadherin. These antisera inhibited the binding of low density lipoproteins with p105 in a dose-dependent manner. These results confirmed the identification of the p105 protein as T-cadherin and demonstrated the fundamental possibility of studying the interaction of this protein with low density lipoproteins by using antipeptide antibodies that inhibit binding.     

Disulfide bond polymerization of a cyclic peptide derived from the surface loop 4 of class 1 OMP of Neisseria meningitidis

Summary Two peptides derived from the surface loop 4 of class 1 Outer Membrane Protein (OMP) ofNeisseria meningitidis were synthesized on solid phase using the Boc/Bzl strategy: one containing the entire loop 4 cyclized and the other representing the polymerized cyclic loop 4. To test a more efficient cyclic peptide presentation, in the present study a strategy was developed to obtain polymers of cyclic peptides. In order to obtain the polymeric cyclic peptide, two protecting groups for cysteine were used — Acm and Mob. The Cys(Acm)-protected cyclic peptide was obtained after removing the Mob group. The polymerization reaction was carried out by simultaneous deprotection/oxidation ofS-Acm with iodine. Analysis of the polymeric cyclic peptide in Tris-tricine-SDS-PAGE showed different bands with molecular weights higher than expected for the corresponding monomeric cyclic peptide. Both peptides were used in immunization of four different mouse strains. The antisera raised against the peptides were evaluated by ELISA and Western blotting vs. OMP preparation ofN. meningitidis. The titers raised against the polymerized cyclic peptide were higher than the ones raised against the cyclic peptide. The antisera elicited did not show bactericidal activity. Nevertheless, the antisera elicited against the polymeric cyclic peptide in the CBA/J mouse strain showed opsonic activity. The antibodies raised against the polymeric cyclic peptide were successfully used as probes in Western blotting experiments to verify the display of loop 4 peptide on the surface of filamentous phage M13.     

Conformation-function relationships in hydrophobic peptides: interior turns and signal sequences

Two studies are diescribed in which synthetic peptides have been designed and examined to address biochemical problems inherent in hydorphobic environments: (1) The cyclic hexapeptide cyclo-(D -Tyr(Bzl)-Gly-Ile-Leu-Gln-Pro) was synthesized as a model of an interior β-turn from the protein lysozyme. Conformational analysis by proton nmr methods, including two-dimensional nulcear Overhauser effect spectroscopy, revealed that the model peptide adopts one conformation in chloroform/dimethyl sulfoxide (98.2) and tetramethylene sulfone solutions. The conformation consists of two linked β-turns, one with the same sequence (Gly-Ile-Leu-Gln) and geometry (Type I) as the protein turn. (2) Major portions of the λ-receptor protein (LamB) signal sequences from E. coli wildtype and mutant strains have been synthesized. The conformational properties and membrane interactions of these synthetic signal peptides correlate with the in vivo export function of the wild type and mutant strains. Functional signal sequences are significantly richer in α-helix in aaqueous trifluoroethanol, lysolecithin, or sodium do-decyl sulfate solution than is a nonfunctional mutant signal sequence.     

Antitumor immunotherapy with the use of synthetic fragments of survivin

The endogenous protein survivin is present in tumor cells and inhibits apoptosis. The influence of vaccination of mice by survivin fragments on growth of various types of tumors was studied in order to examine the possibility of creation of an antitumor vaccinating agent on its basis. Two peptides corresponding to the 118–144 and (80–88)-(153–165) sequences of survivin 2B were chosen and synthesized on the basis of literature data and theoretical calculations. Their ability to stimulate antibody production in mice of the C57BL/6J line (b-haplotype) and in BDF1 hybrids (b × d-haplotype) was investigated. Both peptides were shown to stimulate production of antibodies that bound the recombinant survivin in the BDF1 mice. Immunization of BDF1 and C57BL/6J mice with the recombinant survivin resulted in formation of antibodies that reacted with 118–144 peptide. The effect of preventive vaccination with the peptides and the recombinant protein on dynamics of growth of several species of tumors was studied. Vaccination with the (80–88)-(153–165) peptide was found to cause an antitumor effect in BDF1 mice suffered from sarcoma S-37. Thus, creation of antitumor agent on the basis of this peptide is a promising area of further studies.     

Application of Atmospheric Pressure Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry for Rapid Identification of Neisseria Species

Atmospheric pressure matrix-assisted laser desorption/ionization mass spectrometry (AP-MALDI MS) was applied to develop a proteomics-based method to detect and identify Neisseria species. Heat-inactivated clinical isolate cell suspensions of Neisseria gonorrhoeae and strains belonging to five serogroups (A, B, C, W135, and Y) of Neisseria meningitidis were subjected to on-probe protein/peptide extraction and tryptic digestion followed by AP-MALDI tandem MS (MS/MS)-based proteomic analysis. Amino acid sequences derived from three protonated peptides with m/z values of 1743.8, 1894.8, and 1946.8 were identified by AP-MALDI MS/MS and MASCOT proteome database search analysis as belonging to neisserial acyl carrier protein, neisserial-conserved hypothetical protein, and neisserial putative DNA binding protein, respectively. These three peptide masses can thus be potential biomarkers for neisserial species identification by AP-MALDI MS.     

Surface antigen analysis of group B Neisseria meningitidis 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 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.     

Immunogenicity of synthetic peptides corresponding to flexible and antibody-accessible segments of mouse lactate dehydrogenase (LDH)-C4

The immunological properties of a panel of synthetic peptides that represent the most accessible and mobile segments of the lactate dehydrogenase (LDH)-C4 molecule were characterized. Peptides corresponding to mouse LDH-C4 amino acid sequences: 1-14b, 5-15, 49-58, 97-110, 211-220, 231-243, 274-286, 304-316, and 318-330 were synthesized and compared in terms of binding antibodies raised in rabbits against the intact protein. Six of these sequences were covalently coupled to diphtheria toxoid and used to immunize groups of rabbits. LDH-C4-specific antibodies were detectable in immune sera by enzyme-linked immunosorbent assay, Western blotting, and immunoprecipitation assays. The immunogenicity of the mouse LDH-C4 peptides in rabbits could be ranked in the following order: 5-15, 304-316 greater than 211-220, 274-286 greater than 49-58, 97-110. The immunological properties of these short synthetic peptides did not correlate with features of the mouse LDH-C4 structure except that the most active sequences appeared to be those that differed from the somatic isozymes to the greatest extent. These results have direct bearing on the selection of immunogenic LDH-C4 peptides for contraceptive vaccine studies in humans and non-human model systems.     

Induction of the anti-meningitis immunity with synthetic peptides. III. Immunoactive synthetic fragments of NspA protein from Neisseria meningitidis

Four potentially immunoactive peptide fragments of the NspA protein from the outer membrane of the bacterium Neisseria meningitidis were synthesized in order to create a synthetic vaccine against the meningococcal infection by the serogroup B bacterium. Mice of various lines were immunized with the free peptides nonconjugated with a protein carrier. All the synthetic peptides were shown to induce the production of the antipeptide antibodies in mice. A peptide capable of inducing a decrease in the number of bacteria in blood and the protection of infected animals from death was found in the experiments on the protection of the animals infected with two strains of the Neisseria meningitidis serogroup B. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2002, vol. 28, no. 4; see also http://www.maik.ru.     

Development of a enterovirus diagnostic assay system for diagnosis of viral myocarditis in humans

The coxsackieviruses type B3 (CVB3) are members of the genus Enterovirus of the family Picornaviridae. They are the commonest cause of chronic myocarditis and dilated cardiomyopathy. However, there is still no effective method for diagnosing CVB3 infection in humans. Here, a fast and accurate system that uses a capsid‐protein‐specific peptide sequence to detect CVB3 in the sera of patients with viral myocarditis was established. The peptide sequence was selected from the whole CVB3 capsid protein sequence by computationally predicting fragments with high antigenicity and low hydrophobicity. Two of eight possible peptide sequences were selected and commercially synthesized. The synthesized peptides encoded either the VP2 or VP1 capsid protein and induced immunoglobulin G antibody expression in immunized rabbits. Anti‐VP2 and anti‐VP1 sera detected the viral proteins extracted from CVB3‐infected HeLa cells. The newly synthesized peptides successfully induced antibody production. These peptides, applied in an ELISA system, detected anti‐CVB3 antibodies in virus‐infected mouse serum. Moreover, an ELISA system based on the VP2 peptide detected CVB3 infection in patients with positively identified CVB3‐induced fulminant myocarditis. These results indicate that these new peptides specifically interact with anti‐CVB3 IgG antibodies in mouse and human sera. This ELISA system should be useful for the clinical diagnosis of enterovirus‐induced myocarditis.     

The class 1 outer membrane protein of Neisseria meningitidis produced in Bacillus subtilis can give rise to protective immunity

The class 1 outer membrane protein of Neisseria meningitidis B:15:P1.7, 16 was expressed in Bacillus subtilis in high yield as intracellular aggregates. These were easy to isolate and the protein (called BacP1) could be solubilized under denaturing conditions. Sera of mice immunized with thus-solubilized BacP1 contained high titres of antibodies that reacted with the class 1 protein of the meningococcal envelope in immunoblots but did not react with native meningococcal envelope in enzyme immunoassays (EIA) or with intact meningococci in bactericidal assays. However, when the BacP1 protein was complexed with heterologous (Salmonella) lipopolysaccharide, the ensuing sera reacted with meningococcal envelope preparations in both EIA and immunoblots, showed subtype-specific bactericidal activity, and were protective in an infant rat meningitis model.     

Bioprospecting the American Alligator (Alligator mississippiensis) Host Defense Peptidome

Cationic antimicrobial peptides and their therapeutic potential have garnered growing interest because of the proliferation of bacterial resistance. However, the discovery of new antimicrobial peptides from animals has proven challenging due to the limitations associated with conventional biochemical purification and difficulties in predicting active peptides from genomic sequences, if known. As an example, no antimicrobial peptides have been identified from the American alligator, Alligator mississippiensis, although their serum is antimicrobial. We have developed a novel approach for the discovery of new antimicrobial peptides from these animals, one that capitalizes on their fundamental and conserved physico-chemical properties. This sample-agnostic process employs custom-made functionalized hydrogel microparticles to harvest cationic peptides from biological samples, followed by de novo sequencing of captured peptides, eliminating the need to isolate individual peptides. After evaluation of the peptide sequences using a combination of rational and web-based bioinformatic analyses, forty-five potential antimicrobial peptides were identified, and eight of these peptides were selected to be chemically synthesized and evaluated. The successful identification of multiple novel peptides, exhibiting antibacterial properties, from Alligator mississippiensis plasma demonstrates the potential of this innovative discovery process in identifying potential new host defense peptides.     

Galectin‐3 binds Neisseria meningitidis and increases interaction with phagocytic cells

Galectin‐3 is expressed and secreted by immune cells and has been implicated in multiple aspects of the inflammatory response. It is a glycan binding protein which can exert its functions within cells or exogenously by binding cell surface ligands, acting as a molecular bridge or activating signalling pathways. In addition, this lectin has been shown to bind to microorganisms. In this study we investigated the interaction between galectin‐3 and Neisseria meningitidis, an important extracellular human pathogen, which is a leading cause of septicaemia and meningitis. Immunohistochemical analysis indicated that galectin‐3 is expressed during meningococcal disease and colocalizes with bacterial colonies in infected tissues from patients. We show that galectin‐3 binds to N. meningitidis and we demonstrate that this interaction requiresfull‐length, intact lipopolysaccharide molecules. We found that neither exogenous nor endogenous galectin‐3 contributes to phagocytosis of N. meningitidis; instead exogenous galectin‐3 increases adhesion to monocytes and macrophages but not epithelial cells. Finally we used galectin‐3 deficient (Gal‐3^?/?) mice to evaluate the contribution of galectin‐3 to meningococcal bacteraemia. We found that Gal‐3^?/? mice had significantly lower levels of bacteraemia compared with wild‐type mice after challenge with live bacteria, indicating that galectin‐3 confers an advantage to N. meningitidis during systemic infection.