[An antitumor osteotropic agent based on tumor necrosis factor].

A novel drug for treatment of bone metastases based on human recombinant tumor necrosis factor (TNF-alpha) has been designed. The drug is a molecular structure containing yeast double-stranded ribonucleic acid (dsRNA) covered by the conjugate of polyanion dextran with TNF-alpha and bisphosphonate, alendronic acid. The structure is characterized by the combination of substances possessing antitumor activity (TNF-alpha, dsRNA) and a vector molecule (bisphosphonate) providing tropism to hydroxyapatite, the main mineral component of the bone tissue matrix. The conjugation conditions were optimized and the conjugates of TNF-alpha and alendronic acid with dextran were synthesized. Molecular structures were obtained by self-assembly, and the resulting complexes were separated by gel filtration on Sepharose CL-6B. The electrophoretic analysis method revealed decreased mobility of dsRNA in the complex with the conjugate as compared to the mobility of the original dsRNA. This confirms formation of the designed structures. Transmission electron microscopy confirmed the presence of particles with sizes of 30-40 nm in the drug. Evaluation by the sorption/desorption method showed a higher affinity of TNF-alpha conjugates to hydroxyapatite as compared to the original TNF-alpha molecules (from 1.0 to 1.8 mol/L vs. 0.3 mol/L of potassium phosphate buffer for desorption, respectively).

[Human single chain antibodies directed to tumor necrosis factor].

Six unique phage antibodies to human TNF have been selected from a combinatorial library of human single chain fragment variable. ELISA and Western-blotting was used to study selected phage antibodies binding with TNF. The specificity of selected antibodies was determined by binding with interferon alpha and gamma, bovine serum albumin, ovalbumin and ubiquitin. Two antibodies, sA1 and sB3, were converted into a soluble single-chain antibody form and their affinity was 2.5 and 13.7 nM respectively.

Pharmacokinetics and antitumor effects of the drug containing TNF-α in nanoparticles.

Antitumor activity of TNF-α incorporated in nanoparticles (VLP-TNF-α) and dynamics of its accumulation and elimination from the blood and tumor tissue were studied in ICR mice. The VLP-TNF-α preparation exhibited higher antitumor activity compared to free TNF-α, presumably due to longer circulation of the cytokine in the blood and its more intensive accumulation by tumor tissue.

[Modeling spatial structures of variola and cowpox virus TNF-binding CrmB proteins bound to murine or human TNF].

Orthopoxviruses bear in their genomes several genes coding for homologous secreted proteins able to bind tumor necrosis factor. Different species of the genus possess different sets of these tumor necrosis factor-binding proteins. Viriola virus encodes the only one of them named CrmB. Despite sharing high sequence identity, CrmB proteins belonging to distinct orthopoxviral species were shown to significantly differ by their physico-chemical and biological properties. We modeled spatial structures of tumor necrosis factor receptor domains of variola and cowpox virus CrmB proteins bound to either murine, or human or mutated human tumor necrosis factor. In the sequence of last the arginine residue at position 31 is substituted with glutamine that is characteristic for murine tumor necrosis factor. Theoretical analysis of modeled ligand-receptor complexes revealed that the least stable should be the complex of cowpox virus CrmB with human tumor necrosis factor, and that arginine to glutamine substitution at position 31 should significantly stabilize binding of corresponding human tumor necrosis factor mutant to cowpox virus CrmB. Experimental evaluation of recombinant variola and cowpox virus CrmB efficiencies in inhibiting cytotoxic effect of all these tumor necrosis factors have approved our predictions.

[Neutralizing single-chain antibodies against the tick-borne encephalitis virus].

A recombinant pSC13D6 plasmid DNA was constructed based on cDNA fragments of genes encoding variable domains of heavy and light chains of the MKA 13D6 monoclonal antibody against glycoprotein of the tick-borne encephalitis (TBE) virus. This plasmid provided expression in Escherichia coli cells of the sc13D6 single-chain antibody against the TBE virus. The produced antibodies could bind to the TBE virus, strain 205, and the TBE virus recombinant E protein. The affinity constant of purified sc13D6 was (3.0 +/- 0.2) x 10(7) M(-1) for the equilibrium state and (2.8 +/- 0.3) x 10(7) M(-1) in the case of antigen-antibody formation on the surface. The obtained single-chain antibody could inhibit the infection potency of the TBE virus on a monolayer of eukaryotic cells. The calculated IC50 value for sc13D6 was 16.7 microg/ml.

[Immunogenic properties of recombinant vaccinia virus containing the human IL-2 gene].

A genetic construct of the human interleukin-2 (IL-2) gene within vaccinia virus (L-IVP strain) has been designed. The authors show the capacity of CV-1 cells infected with the recombinant vaccinia virus VV-SIL2 to secrete human IL-2 into the culture medium. Human IL-2 has been detected by immunoblotting. The sera from the animals immunized with the recombinant virus VV-SIL2 exhibited both human IL-2 and its antibodies throughout the observation period. This recombinant virus immunization induced both humoral and cell-mediated immune responses to human IL-2; the observed changes in the concentrations of cytokines are likely to suggest that the response predominantly followed a Th1 pathway. The study construct was nontoxic at the used concentrations and administration routes. The findings point that it is promising to investigate the adjuvant properties of the recombinant VV-SIL2 vaccine-based preparation for immunization in combination with various vaccines and to study this construct in therapy for cancer diseases.

[Study of a role of artificial mycobacterial particles in the realization of immunological processes in experimental animal tuberculosis].

The protective properties of artificial mycobacterial particles versus BCG vaccine were studied in laboratory animals with experimental tuberculosis. The findings of the decreased rate of a tuberculous process and on the increased mean life span in animals inoculated with M. bovis suggest that immunization of guinea-pigs with mycobacterial particles promotes the enhanced development of antituberculous immunity in the animals. The paper proposes a promising method for designing artificial immunogens, the high-polymer antigenic structures that imitates mycobacterial particles.

[Humoral immune response of BALB/c mice immunized with chimer HBcAg proteins carrying the epitopes of surface hepatic B virus protein].

Chimeric HBcAg proteins carrying epitopes from surface hepatitis B virus (HBV) protein (regions 137-147 a.o. HBsAg, 27-37 a.a. region preS1 and 131-145 a.a. region preS2) have been early constructed. This paper presents the data of an investigation of a humoral immune response in mice immunized with obtained by chimeric HBcAg proteins. The findings suggest that the chimeric HBcAg proteins carrying the epitopes of surface HBV protein are able to induce an immune response to both inserted epitopes and carrying protein (HBcAg). Immunization with a mixture of chimeric proteins taken in equivalent quantities induces the synthesis of antibodies to hybrid proteins. The use of aluminum hydroxide considerably enhances a humoral immune response during immunization with chimeric bovine proteins.

[Comparative study of variola virus and monkeypox virus interferon-gamma-binding].

DNA fragments containing genes for coding IFN-gamma-binding proteins (IFNgammaBPs) of variola virus (VARV) and monkeypox virus (MPXV) were obtained from viral genomes using PCR. Isolated genes coding desired proteins were expressed in the insect Sf21 cells using baculovirus expression system. Secreted recombinant IFNgammaBPs were isolated from culture medium of infected Sf21 cells through affinity chromatography procedure. SDS-PAAG and Western blot analysis of culture medium of infected insect cells and preparations of purified recombinant IFNgammaBPs indicated that recombinant viral proteins were dimerized even in the absence of ligand (hIFNgamma) unlike their cell (eucaryotic) analogs. Biological activity of the recombinant IFNgammaBPs were studied in the test of protective effect inhibition of hIFNgamma on L68 cells infected with murine encephalomyocarditis virus. It was shown that recombinant IFNgammaBPs had dose-dependent IFNgamma-inhibiting activity. A possibility of the elaboration of new therapeutics for anti-hIFNgamma therapy on the base of IFNgammaBPs is discussed.

[Expression of genes for orthopoxviral TNF-binding proteins and study resulted recombinant proteins].

Genes for TNF-binding proteins (CrmBs) of variola virus (VARV), monkeypox virus (MPXV) or cowpox (CPXV) were isolated with PCR from viral genomes and expressed within baculovirus DNAs in Sf21 insect cell line. Properties of resulted recombinant proteins were studied with physical-chemical and immunological methods. It was shown with solid phase enzyme-linked immunoassay that viral proteins inhibited hTNF binding with polyclonal hTNF-antibodies. The strongest inhibitor was VARV-CrmB, the less one was MPXV-CrmB. Biological activity of recombinant protein preparations was studied in the test of neutralization of TNF cytotoxicity for L929 murine fibroblast cells. It was shown that recombinant CrmBs neutralized cytotoxicity of hTNF, mTNF or rTNF in species-specific manner. It was shown also that effectiveness of hTNF cytotoxicity inhibition in vitro with VARV-CrmB exceeded the same effect of polyclonal hTNF-antibody. A possibility of the elaboration of new therapeutics for anti-TNF therapy on the base of CrmB-like proteins is discussed.

[Different systems of delivery of HIV-1 DNA vaccine encoding the multiepitope CTL-immunogene].

We used, within the case study, virus-like particles (VLP) and attenuated strains of salmonella for the delivery of HIV-1 DNA vaccine encoding the multiepitope CTL-immunogene. The immunogenicity of the thus obtained vaccine constructions was comparatively analyzed. All constructions were shown to be able of inducing, in immunized animals, both the specific T-cell responses and the synthesis of virus-specific antibodies. The lowest level of immune response was registered in animals immunized by "naked" plasmid DNA. The delivery by plasmid DNA involving VLP or the attenuated strain of salmonella enhances the efficiency of the DNA-vaccine presentation to the immune system.

[Experimental molecular design of recombinant vaccines]. / Eksperimental'noe modelirovanie molekuliarnykh konstruktsii kombinirovannykh vaktsin.

A method was elaborated to construct combined artificial immunogens mimicking virus particles. The gist was exposing protein antigenic determinants of one virus on the particle surface and delivering plasmids with genes for antigenic proteins of another virus to specialized immune cells. Such immunogens were constructed and shown to induce biosynthesis of specific antibodies against HIV-1 and the tick-borne encephalitis virus. The level and duration of the humoral and cell responses were assayed.

[Artificial anti-HIV immunogens and methods of their delivery]. / Iskusstvennye anti-VICH-immonogeny i sposoby ikh dostavki.

Elaboration of an anti-HIV vaccine is a highly important task because there is a need to arrest or at least to slow-down the rapid spread of AIDS throughout the world. Regrettably, no attempts to create an effective vaccine resulted in success. Nonetheless, the available data contribute to building up the confidence in that the set purpose can be achieved provided extra resources are found for working out a potential anti-HIV vaccine. The paper contains some results of research conducted by the "Vector" Research Center for Virology and Biotechnology in the field of artificial polyepitope immunogens, which could be potential anti-HIV vaccines, and in the field of creating various system for their delivery. The immunogenic properties of the thus obtained vaccine structures were tested on mice BALB/c. The delivery systems were experimentally demonstrated to ensure the induction of specific antibodies against HIV-1, with such anti-bodies having a virus-neutralizing activity; the above systems also induce the cellular immunity.

[Molecular construction of experimental combined vaccines]. / Molekuliarnye konstruktsii éksperimental'nykh kombinirovannykh vaktsin.

A method for designing molecular constructions of combined artificial immunogens mimicking viral particles is proposed. Using this method, it is possible to expose antigenic determinants of any viral protein on the surface of such particles and to deliver plasmids containing genes encoding the synthesis of protein antigens to target cells. This approach was used to create the constructions of combined artificial immunogens inducing the production of specific antibodies to HIV-1 and to evaluate the extent and duration of B-cellular immune response depending on the way of antigen exposure to immunocompetent cells.