[Immunogenic and protective characteristics of surface antigens 6 and d of Burkholderia pseudomallei].

AIM: Extraction of complex of Burkholderia pseudomallei antigens 6+d (Ag6+d) and study of its immunogenic and protective characteristics. MATERIALS AND METHODS: Studied antigens were obtained from acrtone-dried cells of B. pseudomallei 57576. Experiments were performed on white mouse model. Microbiological, immunochemical as well as immunological methods were used in the study. RESULTS: It was shown that antigenic complex 6+d has a glycoprotein nature and corresponds to high-polymeric catode-moving antigen 6 with molecular mass 500 kDa and anode-moving antigen d with molecular mass 40 - 55 kDa. Immunogenic and protective characteristics of surface antigenic complex 6+d was studied. It was noted that Ag6+d caused reliable stimulating effect on cellular arm of immune system of white mice appeared in activation of delayed-type hypersensitivity reactions, enhanced phagocytic activity of polymorphonuclear macrophages as well as increased expression of Fc-receptors on macrophages and neutrophils. CONCLUSION: Observed stimulation of cellular immunity by surface antigens was confirmed during study of their protective characteristics on the model of experimental meloidosis in white mice.

[Phagocytosis of Burkholderia mallei as a criterion for immunogenicity evaluation of its capsular antigens].

Test-system using index of phagocytosis of noncapsulated mutant loaded by one of the several capsular antigenic complexes was developed and used for screening for both immunogenic and protective capsular antigens of B. mallei. Direct correlation between index of phagocytosis, level of delayed-type hypersensivity, and protective effect of capsular antigens has been shown on the model of experimental melioidosis in susceptible white mice, guinea pigs and white rats. Obtained results let to use the developed test-system for initial selection of B. mallei protective capsular antigens and their further study as potential components of preparations for specific prophylaxis of glanders and melioidosis.

[Immunogenicity of surface and capsular antigens of Burkholderia].

Study showed that five (C3, C6, C9, C10, C11) out of ten chromatographic fractions of surface and capsular antigens of B. mallei significantly stimulated cell-mediated immunity that manifested in activation of delayed hypersensivity reactions (DHS) and phagocyteability of noncapsulated avirulent strain of B. mallei with added surface and capsular antigenic complexes. Other fractions did not stimulate cell-mediated immunity, furthermore, fraction C8, which contained capsular biopolymer with mass of 200 kD (Ar8), was characterized by immunosuppressive effect on DHS and phagocytosis. Observed stimulation of cell-mediated immunity by fractions referred above has been confirmed by assessment of their protective effects on the model of experimental melioidosis in white rats. Relationship between markers of humoral and cell-mediated immunity, including markers of specific response, was not observed.

[Ultrastructural immunochemical study of pathogenic Burkholderia capsule].

The capsular structures of Burkholderia pseudomallei, B. mallei, B. cepacia and their avirulent noncapsular mutants were studied with the use of electron ahd immunocytochemical techniques. For this purpose, antimelio-idosis monoclonal antibodies (McAb) G11 and 1 G2, epitope-aimed at capsular glycopyotein of 200 kD and outer-membrane proteins of 42 and 39 kD, were used. As revealed in this study, the typical causative agents of melioidosis and glanders formed the capsule and exhibited high virulence due to the antiphagocytic activity of 200 kD glycoprotein, whose epitopes were found to be incorporated into the capsule, in contrast to avirulent variants and B. cepacia, found to have no such structure. The recognition of the membrane determinants of McAb 1 G2 on the outer-membrane surface of the non-capsular variants of microbes known to be the causative agents of melioidosis and glanders was indicative of absence of the capsule in these microbial cells. These data concerning the role of 200 kD antigen in virulence, its structural and functional characteristics may be efffectively used in the study of the pathogenetic mechanisms of melioidosis and glanders, as well as in the construction of preparations for their immunodiagnostics and prophylaxis.

[Use of infusoria Paramecium caudatum for the evaluation of the toxicity of antigens of different causative quarantine agents].

The results of the evaluation of the toxicity of bacterial antigens obtained from the causative agents of plaque, glanders, melioidosis, cholera on infusoria of the species P. caudatum, as well as on cell lines L-929, CHO K-1 and peritoneal macrophages of BALB/c mice, are presented. As revealed in this study, the method of toxicity determination on infusoria is similar in its sensitivity to the methods of testing on. CHO K-1 and L-929 cells, but the former is simpler, more available and permits the determination of toxic doses producing disturbances in the vital activity of the infusoria, but not leading to their death.

[Immune response in experimental animals immunized with Burkholderia pseudomallei surface antigens]. / Immunnyi otvet éksperimental'nykh zhivotnykh pri immunizatsii poverkhnostnymi antigenami Burkholderia pseudomallei.

The influence of the chromatographic fractions of B. pseudomallei surface antigenic complex (C, C1, D, H) on immune response in white rats and white mice was under study. These antigenic complexes were noted to produce perceptible stimulating effect on the immune system of white rats, in contrast to that of white mice. The immunization of the mice the above-mentioned fractions suppressed the phagocytic activity of peritoneal macrophages (PM) and slightly enhanced cell-mediated immunity. In experiments on white rats, fraction C induced the growth of specific antibody titers and stimulated the phagocytic activity of PM, as well as the indices of delayed hypersensitivity (DH). Fraction D showed a lower level of the induction of the phagocytic activity of PM and was inactive in the manifestation of cell-mediated immunity, but induced a high level of humoral immunity. Antigenic complexes C1 and H increased the phagocytic activity of PM and DH characteristics with a low level of antibody production. The studied fractions of the causative agent of melioidosis decreased the content of bactericidal cationic proteins (BCP) in rat blood neutrophils, and in mice a decreased content of BCP in phagocytes was registered. The fractions increased the activity of myeloperoxidase in blood neutrophils in mice and rats. As revealed with the use of immunoelectrophoresis, SDS PAAG electrophoresis and immunoblotting, the surface antigenic complex contained proteins of 18, 22, 39 kD and glycoproteins 42, 55, 90 kD. The latter glycoprotein was found in all the fractions under study, having protective properties.

[Immunobiological properties of Burkholderia pseudomallei and Burkholderia mallei capsular substances]. / Immunobiologicheskie svoistva kapsul'nogo veshchestva Burkholderia pseudomallei i Burkholderia mallei.

The biopolymer composition, immunotropic and immunogenic properties of the fractions of B. pseudomallei and B. mallei were under study. The first two capsular fractions of these agents were found to be similar in their biopolymer composition that was indicative of their close relations. At the same time the causative agents of glanders proved to have decreased content of high molecular glycoproteids and LPS fragments. In the causative agents of melioidosis, capsular fractions K3 and K4 were characterized by the domination of proteins with a molecular weight of 42-25 kD. Fraction K4 in B. pseudomallei and fraction K1 in B. mallei had pronounced immunosuppressing properties ensuring the protection of encapsulated microbial cells in the body. The biopolymers forming fractions K1, K2, K3 in B. pseudomallei and fraction K2 in B. mallei were characterized by immunomodulating properties.

[Immunotropic and immunogenic properties of Burkholderia pseudomallei surface and membrane antigens]. / Immunotropnye i immunogennye svoistva poverkhnostnykh i membrannykh antigenov Burkholderia pseudomallei.

The immunotropic and immunogenic properties of some chromatographic fractions of B. pseudomallei surface antigenic complex, as well as the preparations of B. pseudomallei outer and cytoplasmic membranes, were studied. The difference between the biopolymers under study in cytotoxicity, humoral and cell-mediated immunity characteristics, phagocytic activity were established. Some antigenic fractions (B, C, C1, H) showed perceptible protective activity (25-60%) in experiments on mice infected with B. pseudomallei virulent strain. One of the preparations of cytoplasmic membrane (CM-1) was also found to have protective properties (30%). Complex immunization with the antigenic complexes under study, introduced in combination with the immunomodulating agent Bromantan, was shown to enhance the protective effect.