M. A. Titova

New approaches to the immunotherapy of Alzheimer’s disease with the synthetic fragments of α7 subunit of the acetylcholine receptor

The effect of immunization with the synthetic fragments of the α7 subunit of the acetylcholine nicotine receptor on the spatial memory of mice subjected to olfactory bulbectomy, which causes the development of the neurodegenerative disease of Alzheimer’s type, was studied. NMRI mice were immunized with the KLH conjugates of two peptide fragments of the N-terminal fragment of the α7 subunit extracellular fragment, subjected to olfactory bulbectomy to cause the development of the neurodegenerative disease of Alzheimer’s type, and then the state of the spatial memory was evaluated. It was shown that 20% of bulbectomized mice immunized with N-terminal 1–23 fragment exhibited good spatial memory after training. Immunization with the peptide construct (159–167)-(179–188) consisting of two hydrophilic exposed regions of α7-subunit induced good spatial memory in 50% of bulbectomized mice, while in the control group, which received only KLH, none of animals were learned. Thus, the development of immunotherapy with peptide (159–167)-(179–188) seems to be a promising approach to prophylaxis and treatment of Alzheimer’s disease.

Induction of antibodies to particular sites of the α7 subunit of the nicotinic acetylcholine receptor in mice of different lines

Five synthetic fragments of the N-terminal domain of the α7 subunit of the human nicotinic acetylcholine receptor (α7 nAChR) that correspond to theoretically calculated B epitopes and T helper epitopes of the protein and contain from 16 to 29 amino acid residues were tested for the ability to stimulate the formation of antibodies in mice of three lines having H-2d, H-2b, and H-2k haplotypes of the major histocompatibility complex. It was shown that, in the free (unconjugated) form, all the peptides stimulate the formation of antibodies at least in one mouse line. Most of the peptides induced the formation of antibodies in BALB/c mice (haplotype H-2d); therefore, more detailed studies were carried out on these animals. The free peptides and/or their conjugates with keyhole limpet hemocyanin were demonstrated to be capable of stimulating the formation in BALB/c mice of antibodies that bind to the recombinant extracellular N-terminal domain of (α7 nAChRα. The epitope mapping of antipeptide antibodies carried out using truncated fragments helped reveal antipeptide antibodies to four regions of the α7 subunit: 1–23, 98–106, 159–168, and 173–188 (or 179–188).

Structure prediction for peptides capable of inducing antibody formation in mice

A simple method for the sequence prediction of peptides capable of thein vivo stimulation of antibody production in mice without conjugation with protein carriers was proposed on the basis of literature data on the structure of T-helper epitopes active in vivo. According to this approach, a potentially active peptide should contain a nine-membered sequence with a hydrophobic amino acid residue in the first position and a positively charged residue in the ninth position. The efficiency of this approach was confirmed by the presence of such sequences in the previously described synthetic peptides with immune activities, by the application of this approach to the choice of immunogenic fragments within the sequences of various proteins that exhibited further the specific activity, and by the construction of immunogenic peptides on the basis of inactive natural sequences.

Synthesis and biological properties of polysaccharide-peptide conjugates as potential antigens for a vaccine against meningococci of serogroups A and B

A new approach to the development of a vaccine against meningococci of serogroups A and B was proposed. It involves the synthesis of conjugates of high-molecular capsule polysaccharides of the serogroup A meningococcus (PsA) with earlier synthesized protective fragments of membrane proteins from serogroup B meningococci. The conjugates were synthesized using a method that consists of the generation of aldehyde groups by oxidizing free vicinal hydroxyl groups of PsA and subsequent reaction of these groups with amino groups of the peptide. The reaction proceeds with the intermediate formation of the Schiff base, which is reduced to the stable secondary amine. The main parameters of the reaction were optimized in the synthesis of a PsA conjugate with a model peptide and methods of their characterization were developed. The reproducibility and efficiency of the synthetic procedure were demonstrated by the example of synthesis of PsA conjugates with fragments of protein PorA from the outer membrane of the serogroup B meningococcus. It was shown that, when administered without adjuvant, a conjugate of PsA with a protective peptide, which represents an exposed conserved fragment 306–332 of protein PorA, stimulates the formation of antibodies to the peptide and polysaccharide moieties of the molecule and is also capable of decreasing the degree of bacteremia in animals infected with serogroup A and serogroup B meningococci. The approach can be applied to the development of a complex vaccine for serogroup A and serogroup B meningococci.

Antibodies against synthetic fragments of the prion protein for the diagnosis of bovine spongiform encephalopathy

Seven peptides matching fragments of the prion protein and containing from 17 to 31 amino acid residues were synthesized to obtain antibodies for diagnostics of bovine spongiform encephalopathy. Rabbits were immunized with either free peptides or peptide–protein conjugates to result in sera with a high level of antipeptide antibodies. Immunohistochemical assay revealed sera against four free peptides and a protein–peptide conjugate, which effectively bind to the pathogenic isoform of the prion protein in brain tissue preparations from cattle afflicted with bovine spongiform encephalopathy and do not interact with normal brain preparations. The resulting antipeptide sera can be used in developing a diagnostic kit for bovine spongiform encephalopathy.

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.

Production of monoclonal antibodies to the prion protein and their characterization

Antibodies to the prion protein (PrP), particularly, monoclonal antibodies, are necessary tools in the diagnostics and study of prion diseases and potential means of their immunotherapy. For the production of monoclonal antibodies, BALB/c mice were immunized by a recombinant bovine PrP. Three stable hybridomas producing antibodies of IgM class were prepared. The antibodies were bound to PrP in a solid-phase enzyme immunoassay and immunoblotting. The epitope mapping accomplished with the use of synthetic peptides showed that an epitope located in region 25–36 of PrP corresponds to one antibody, and epitopes located in region 222–229, to the other two. The antibodies to fragment 222–229 purified by affinity chromatography recognized with a high specificity conglomerates of a pathogenic prion in the brain tissue of cows suffering from spongiform encephalopathy. Thus, in nontransgenic mice, PrP-specific monoclonal antibodies were produced, useful in studies and diagnostics of prion diseases.

Synthetic fragments of the NS1 protein of the tick-borne encephalitis virus exhibiting a protective effect

Potentially immunoactive regions of the NS1 nonstructural protein of the tick-borne encephalitis virus that can stimulate the antibody formation in vivo and protect animals from this disease were chosen on the basis of theoretical calculations. Eleven 16-to 27-aa peptides containing the chosen regions were synthesized. The ability of the free peptides (without any high-molecular-mass carrier) to stimulate the production of antipeptide antibodies in mice of three lines and ensure the formation of protective immunity was studied. Most of these peptides were shown to exhibit the immunogenic activity in a free state. Five fragments that can protect mice from the infection by a lethal dose of tick-borne encephalitis virus were found.

Production of antibodies to the α7-subunit of human acetylcholine receptor with the use of immunoactive synthetic peptides

Potential B epitopes and T-helper epitopes in the N-terminal extracellular domain of the α7-subunit of human acetylchloline receptor (AChR) were theoretically calculated in order to reveal peptides that can induce the formation of specific antibodies to this domain. Four peptides structurally corresponding to four α7-subunit regions containing 16–23 aa and three of their truncated analogues were synthesized. Rabbits were immunized with both free peptides and protein conjugates of their truncated analogues, and a panel of antibodies to various exposed regions of the N-terminal extracellular domain of the AChR α7-subunit was obtained. All of the four predicted peptides were shown to induce the production of antipeptide antibodies in free form, without conjugation with any protein carrier. The free peptides and the protein conjugates of truncated analogues induced the formation of almost equal levels of antibodies. Most of the obtained antisera contained antibodies that bind to the recombinant extracellular N-terminal domain of the rat AChR α7-subunit and do not react with the analogous domain of the α1-subunit of the ray Torpedo californica AChR.

Induction of Immune Response by Synthetic Fragments of the Bovine Prion Protein and Their Analogues in Mice of Various Lines

Antibodies to the bovine prion protein were produced by immunizing mice of three lines with five synthetic fragments of the protein and six of their analogues. The analogues contained amino acid substitutions that, according to theoretical calculation, should lead to an increase in the immunogenic activity of peptides. All the peptides except for one induced the formation of antibodies. All the sera containing the antipeptide antibodies were tested by an immunohistochemical method. The sera effectively bound to brain preparations from an animal with spongiform encephalopathy were identified; it was shown that they do not interact with preparations of normal brain. Therefore, it was shown that the immunization of mice with synthetic fragments of a prion protein allows one to obtain specific antibodies suitable for the study and diagnostics of prion diseases.