Aim. To study the sensitivity of biofilms of vaccine and freshly isolated strains of Bordetella pertussis to antibiotics.Materials and methods. Vaccine and freshly isolated strains of B. pertussis were used. Cultures of strains grown on dense nutrient medium were used as inoculate for biofilms production. The intensity of biofilm formation in round-bottomed polystyrene 96-well plates was estimated by staining with 0.1% gentian-violet solution. The following antibiotics were used in experiments: penicillins (ampicillin), cephalosporins (ceftriaxone), aminoglycosides (gentamicin), macrolides (erythromycin).Results. The highest resistance to antibiotics was demonstrated by the vaccine strain No. 305 and freshly isolated strain No. 211, sensitive only to erythromycin. Vaccine strain No. 703 was sensitive to gentamicin and ampicillin and showed resistance to erythromycin and ceftriaxone. Vaccine strain No. 475 was sensitive to all tested antibiotics. The Tohama 1 strain was resistant to ampicillin and sensitive to other antibiotics. Freshly isolated strains No. 178 and No. 162 were resistant to ceftriaxone and sensitive to gentamicin, erythromycin and penicillin. Minimal inhibitory concentrations of tested antibiotics ranged from 0.2 μg/ml to 5.0 μg/ml.Conclusion. These data indicate the heterogeneity of vaccine and freshly isolated strains of B. pertussis in sensitivity to antibiotics. The greatest activity was shown by erythromycin, which suppressed the growth of biofilms of 6 out of 7 strains. The least effective was ceftriaxone, which suppressed the growth of biofilms of only 2 strains.
In many countries of the world despite the extensively vaccination against pertussis has increased the incidence of the whooping cough in all age group of the population. The MLST, MLVA and CGH investigations revealed the differences in genotypes between the vaccine strains B.pertussis and the circulating isolates B.pertussis in consequence of adaptation of the bacterium B.pertussis to the immunized hosts. It is lead to waning immynity and outbreak of incidence of pertussis. The mutations in the genes encoding the major virulence factors, the allelic polimorfism and decreasing the genome size of B.pertussis strains are the basis of the B.pertussis adaptation to the immunized hosts and dependent on the type of the vaccine used for immunization Programme. In countries that use acellular pertussis vaccine for vaccination programme the dominant isolates genotypes are: ptxА1-ptxС2- ptxР3-prn2- tcfA2-1-fim3-2 и ptxА1- ptxС2- ptxР3-prnА2- tcfA2- fim2-1- fim3-1, and that use the cellular pertussis vaccine the dominant isolates genotypes are ptxА1-ptxС1- ptxР1-prn1- tcfA2- fim2-2 fim3-1 и ptxА1- ptxС1- ptxР1- prn2- tcfA2- fim2-1- fim3-1. The constant monitoring of the genotypes of isolates B.pertussis is necessary to reveal the dominant genotypes and include them in the national immunization programme in combination with vaccine strains B.pertussis.
Aim. To study the formation of biofilms by freshly isolated and vaccine strains of Bordetella pertussis of different serotypes.Materials and methods. The intensity of biofilm formation by B. pertussis strains in 96-well round-bottom polystyrene plates by using three sowing doses of microbial cells (1,25 IOU/ml, 2,5 IOU/ml and 5,0 IOU/ml) was estimated by staining with 0,1% gentian-violet solution. The results were interpreted after measuring the optical density (OP) of the colored solvent at a wavelength of 600 nm.Results. The highest intensity of biofilm formation was found in the newly isolated strain No. 211 and vaccine strain No. 475, both belonging to serotype 1.2.3. Cultures of these strains formed dense biofilms at all sowing doses of microbial cells. Certain differences in the intensity of biofilm formation were found between freshly isolated and vaccine strains of serotypes 1.2.0 and 1.0.3, especially when using a sowing dose of 5,0 IOU/ml. Freshly isolated strains at this dose formed dense biofilms, while two of the three vaccine strains formed moderate biofilms, and one strain was dense.Conclusion. The revealed differences between the strains of B. pertussis in the intensity of biofilm formation may be associated with the peculiarities of the expression of agglutinogens, as well as other surface structures of microbial cells involved in the adhesion process on the substrate.
Aim. Study cytokine status in mice immunized with vaccines containing acellular pertussis component. Materials and methods. Vaccines developed in Mechnikov RIVS - acellular pertussis vaccine (aPV) and adsorbed pertussis-diphtheria-tetanus vaccine (aDTaP), containing a complex of protective antigens of pertussis microbe - were used in the study. Fi (CBAxCsyBle) line mice weighing 12 - 14 g were immunized intraperitoneally 3 times at an interval of 7 days with aPV and aDTaP at human immunization dose (0.5 ml), containing 25 pg of pertussis component. Intact mice were used as a control group. Levels of IFN-y, IL-2, IL-4, IL-5, IL-12 cytokines were determined after each immunization in enzyme immunoassay using commercial test-systems from Cusabio (China). Results. An increase of levels of IFN-y, IL-2, IL-5, IL-12 and lack of stimulation of production of IL-4 was established in dynamics of immune response after administration of aPV and aDTaP vaccines. Conclusion. The data obtained indicate that immunization of mice with aPV and aDTaP vaccines resulted in activation of production of cytokines characteristic for immune response during pertussis infection and immunization with whole-cellular aDTP-vaccines.
Aim. Study of the effect of antibodies to agglutinogens 1 and 2, filamentous hemagglutinin (FHA) and pertussis toxin (PT) on the formation of biofilms by Bordetella pertussis strains on the abiotic substrate.Materials and methods. Vaccine-derived and freshly isolated strains of B. pertussis were used. Cultures of strains grown on a dense nutrient medium were used as an inoculum for obtaining biofilms. The intensity of biofilm formation in round-bottomed polystyrene 96-well plates in the presence of antisera to agglutinogens 1 and 2, antiserum to FHA, and monoclonal antibodies (MСА) to the S1, S2, and S3 subunits of PT was evaluated by staining with 0.1% gentian-violet solution.Results. Most of the studied strains were sensitive to antibodies, which was manifested in complete suppression of biofilm formation. All strains were sensitive to antiserum to agglutinogen 1, antiserum to FHA, and MCA to the S2 subunit of KT. Three out of 4 studied strains with this agglutinogen in their composition were sensitive to antiserum to agglutinogen 2: No. 475 (serotype 1.2.3), No. 317 (serotype 1.2.3) and No. 178 (serotype 1.2.0). Relative resistance to antiserum was detected only in serotype 1.2.0 strain No. 305, but with minimal dilution, the intensity of biofilm formation was 1.8 times lower than in the control group. Strains No. 703 (serotype 1.0.3) and No. 287 (serotype 1.0.3) that did not have agglutinogen 2 were resistant to antiserum. Four and 5 out of the 6 strains used were sensitive to the S1 and S3 subunits of PT, respectively. Strain No. 305 was resistant to MCA to the S1 and S3 subunits, and strain No. 287 to MCA to the S1 subunit. At the same time, the intensity of biofilm formation was 2 and 1.8 times lower than in the control at the minimum MCA dilution.Conclusion. These data indicate that the growth of biofilms of B. pertussis strains is suppressed by antibodies both to the surface structures of the microbial cell (agglutinogens 1 and 2, FHA) and to the S1, S2 and S3 subunits of PT.
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