[Analysis of antigenic determinant profiles of the Ebola virus VP35 protein N-terminal region using its short recombinant fragments]. / Vyiavlenie antigennykh determinant na N-kontse belka VP35 virusa Ebola s pomoshch'iu korotkikh rekombinantnykh fragmentov étogo belka.

cDNA of fragments of gene VP35 of the Ebola virus (EV) were expressed in vector pQE30 for the purpose of isolation of recombinant fragments of protein VP35. Five short affinity-purified fragments of the EV VP35 protein were analyzed, by using the methods of IEA and immunoblotting, with polyclonal antiviral sera (PAS) against EV and with hybrid monoclonal antibodies (Mabs) IC6 and 6F7 specific to EV VP35 protein. All fragments of protein VP35 with an intact N-terminal region and removed C-terminal region were found to interact effectively with PAS and with Mabs IC6 and 6F7. Rec86N, the smallest of the above fragments, comprised the initial 86 amino acid residues of the VP35 N-terminal region. A removal of 36 amino acid residues from the N-terminal region of Rec310N, the largest recombinant fragment, resulted in a loss of interaction with Mabs IC6 and 6F7, while the interaction with polyclonal antibodies remained intact. The obtained results show that the initial 86 amino acid residues of the N-terminal region of EV VP35 are of the key importance in forming the antigenic structure of VP35 and that they contain multiple B-cell epitopes. Finally, the initial 36 amino acids of VP35 predetermine the shaping-up of two antigenic determinants for Mabs IC6 and 6F7.

[Antigenic structure of Ebola virus VP35 protein]. / Issledovanie antigennoi struktury belka VP35 virusa Ebola.

Antigenic structure of Ebola virus (EV) (strain Mayinga) nucleocapsid protein VP35 was analyzed using monoclonal antibodies to EV VP35 and polyclonal antibodies to EV. EV protein VP35 was shown to have antigenic sites inducing the production of antibodies in animals. For better characterization of protein VP35 antigenic structure. EV gene encoding the full-length VP35 was cloned in vector pQE31 as a recombinant fusion protein (rec.VP35). The antigenic and immunogenic properties of rec.VP35 and EV VP35 were compared by ELISA and Western blot analysis with polyclonal and monoclonal antibodies. Antibodies of positive sera and VP35 MAbs cross reacted with the analyzed antigens. The topography of epitopes on EV VP35 and rec.VP35 was studied using MAbs and polyclonal antibodies to rec.VP35 in a competitive antibody binding assay. Two epitopes of one site were identified on these proteins. These epitopes are present on infectious virion protein VP35 and are stable during physicochemical exposures.

[Immunobiological properties of vp24 protein of Ebola virus expressed by recombinant vaccinia virus]. / Izuchenie immunobiologicheskikh svoistv belka vp24 virusa Ebola v sostave rekombinantnogo virusa ospovaktsiny.

Immunological and biochemical parameters were studied in guinea pigs immunized with recombinant vaccinia virus containing full-sized gene of Ebola virus vp24 protein and then infected with virulent strain of Ebola virus. The majority of the studied parameters changed similarly in guinea pigs immunized with recombinant vaccinia virus and control guinea pigs inoculated with vaccinia virus both before and after challenge with Ebola virus. However, in animals immunized with recombinant vaccinia virus producing vp24 some biochemical parameters, the mean life span after challenge with Ebola virus, the level of antibodies to the virus, and the phagocytic activity of neutrophils indicated the development of immunological processes other than in controls, namely, the development of immune response to vp24. Although these processes did not eventually lead to the survival of animals, they prolonged the mean life span and resulted in the production of anti-Ebola antibodies, though the level thereof was low. These data demonstrate that recombinant vaccines against Ebola fever are a promising trend of research.