Comparison of Two Different Methods for the Extraction of Outer Membrane Vesicles from the Bordetella pertussis as a Vaccine Candidate.

Despite the availability of a vaccine, pertussis is still a worldwide health problem. Outer membrane vesicles (OMVs) in gram-negative bacteria can stimulate the immune system due to several outer membrane proteins and are very good candidates in vaccine development. OMVs obtained from Bordetella pertussis contain several antigens, which are considered immunogenic, and could make them a potential candidate for vaccine production. The current study aimed to compare the current OMV extraction method (with ultracentrifuge) and a modified extraction method (without ultracentrifuge) and to evaluate the physicochemical properties as well as the expression of their main virulence factors. Vaccinal strain BP134 grown on Bordet Gengo agar were inoculated in Modified Stainer-Scholte medium for mass cultivation. OMVs were prepared using two different methods. They were then stained and examined with a transmission electron microscope. Protein contents were measured by the Bradford method, and then the protein profile was evaluated by SDS-PAGE. The presence of immunogenic antigens was detected by Western blotting. The size and shape of the OMVs obtained from the modified method without the use of ultracentrifuge were similar to the current method and had a size between 40 and 200 nm. The total protein yields of the OMV isolated using the current and modified methods were 800 and 600 µg/ml, respectively. Evaluating the protein profile of extracted OMVs showed the presence of different proteins. Finally, the presence of PTX, PRN, and FHA was observed in OMVs extracted from both methods. Comparison of the two OMV extraction methods showed that the obtained vesicles have a suitable and similar shape and size as well as the expression of three important pathogenic factors as immunogens. Despite the relatively low reduction in protein yield as the modified method does not require ultracentrifuge, this extraction method can be used as a suitable alternative for extracting the outer membrane vesicles from B. pertussis, especially in developing countries. It should be noted that further experiments including immunogenicity determination of OMVs obtained as vaccine candidates in animal models are required.

Comparative Assessment of the Whole-cell Pertussis Vaccine Potency Using Serological and Intracerebral Mouse Protection Methods.

One of the most important QC tests of whole-cell pertussis vaccine (WCPV) is potency test. In this regard, mouse protection test (MPT) is the current potency method, which is associated with severe animal distress and large variability in results. The purpose of this study was to assess Pertussis Serological Potency Test (PSPT) as a serological alternative method to intracerebral challenge in MPT assay. In the current study, the potency of three experimental batches of WCPV (1, 2, and 3) and standard vaccine were compared using MPT and PSPT methods. In the MPT method, mice were immunized with tests and standard vaccines. After 2 weeks, they were intracerebrally challenged with Bordetella pertussis strain (18323). The potency was calculated via parallel line analysis based on the numbers of survivors 2 weeks after the challenge. Similar to MPT method, mice were immunized in the PSPT method and bled after 4 weeks. In the next step, sera were titrated by 18323-WCP-ELISA assay and potency values were estimated via parallel line analysis. Pearson correlation test was used to measure the strength of association between MPT and PSPT assay results. The potency values of the experimental laboratory batches 1, 2, and 3 in MPT assays were 11.14, 5.02, and 4.24 Iu/ml, whereas the obtained results of PSPT assays were 10.32, 4.11, and 3.06 Iu/ml, respectively. The correlation of MPT and PSPT results was 0.807. The findings of the present study demonstrated a significant correlation between MPT and PSPT results. The implementation of PSPT was more advantageous, compared to MPT due to its ethical approaches and less variability in results. The PSPT is a promising alternative method for intracerebral challenge. However, additional validation is needed to support the establishment of this method.

Evaluation of Pertussis Toxin Expression in B2 and THIJS Media.

Whole-cell pertussis vaccine (wP) has been imperative and highly effective in preventing childhood deaths due to pertussis. Pertussis toxin is one of the virulence factors of Bordetella pertussis in all available pertussis vaccines. wP production in Razi Vaccine and Serum Research Institute is according to bioreactor culture of B. pertussis strains in B2 medium. The aim of this study was to evaluate B. pertussis strain 509 PT production in B2 and Thalen-IJssel (THIJS) media by Chinese Hamster Ovary (CHO) cell and enzyme-linked immunosorbent assay methods (ELISA). In the current study, B. pertussis strain 509 was cultured in B2 and THIJS media. Six samples were taken during the log growth phase within 2-3 h intervals (triplicate). The growth rate was calculated using opacity and the quantification of cell-associated and released PT measured by ELISA and CHO cell assays. THIJS medium was significantly showed an increase in the bacterial growth rate. During the first 29 h, bacterial concentrations in B2 and THIJS culture medium were 19 and 29 IOU, respectively. In THIJS medium, greater amount of pertussistoxin production was cell-associated. In B2 medium, maximum cell-associated toxin by ELISA and CHO cell assays were in the ODs of 1.1 and 0.9 and for THIJS medium in the ODs of 1.6 and 1.1, respectively. B. pertussis strain 509 in THIJS medium produced higher cell mass and cell-associated pertussis toxin than that of B2. It can be used for the production of whole-cell vaccine with higher pertussis toxin and accordingly using lower biomass per dose leading to the reduction of vaccine toxicity.

Bradykinin-Potentiating Factors of Venom from Iranian Medically Important Scorpions.

The venom of animals, including snakes, scorpions, and spiders is a complex combination of proteins, peptides, and other biomolecules as well as some minerals. Among the biomolecules of some animal’s venom, small peptides that lack disulfide bands known as Non-Disulfide Bridge Peptides (NDBPs) potentiate the bradykinin by preventing the conversion of angiotensin 1 to angiotensin 2 using the mechanism of inhibiting the Angiotensin-Converting Enzyme activity and finally reducing the blood pressure in the victims. This feature of the NDBPs of animal’s venom is suggested as the potential of biological drugs. This study aimed to isolate venom components of three species of Iranian medically important scorpions and study the bradykinin potentiating effect of them. The scorpion specimens were collected from the venomous animals and antivenom production department of Razi Vaccine and Serum Research Institute, Karaj, Iran. Moreover, venom extraction was performed by electrical shock (5 volts). The obtained liquid venom of three species specimens was frozen and lyophilized immediately and then preserved in a cool and dried place. The isolation of the venom components for each scorpion was carried out using high-performance liquid chromatography. The obtained ranges of venom fractions (zones) were tested on isolated tissues of guinea-pig ileum and rat uterus using organ bath instrumentation in several replicates. The bioassays resulted in the peptides, including Z1 and Z2 regions in the venom fractionsof the Hottentotta saulcyi, Z2 in Odontobuthus doriae, as well as Z2 and Z3 in Mesobuthus eupeus demonstrated bradykinin potentiating effect. It is concluded that Bradykinin Potentiating Factors were traceable in the venom of all three scorpion species. Therefore, these venoms have the therapeutic potential to exploit biological-based drugs.