The evaluation of yeast derivatives as adjuvant of the immune response to the Bm86 antigen in cattle: Correction

BACKGROUND: The Gavac™ vaccine against the cattle tick Boophilus microplus has proven its efficacy in a large number of controlled and field experiments. However, this vaccine could be further improved by searching for new alternative adjuvants that would induce a stronger long-lasting immune response. We conducted several experiments to assay the adjuvant effect of fractions of the recombinant yeast Pichia pastoris in mouse and cattle models. In previous experiments, the combination of the yeast membrane with saponin was the most effective formulation in stimulating the humoral immune response in mice, eliciting a response higher than Montanide 888. The response was predominantly of the IgG1 isotype. Here, we evaluated the response in cattle and compared the results with that obtained in mice. RESULTS: Bm86 on the membrane of P. pastoris plus saponin produced high antibody titers in cattle, though the protection level against tick infestations was lower when compared to Gavac™, probably due to a decrease in the IgG1/IgG2 ratio. The predictive value of the mouse model was studied through correlation analysis between the isotype levels in mice and the efficacy of formulations in cattle. Good correlation was established between the level of antibodies in mice and cattle, and between the amount of anti -Bm86 IgG1 in mice and the degree of protection in cattle. CONCLUSION: Mouse model have the potential to predict immunogenicity and efficacy of formulations in cattle. These results also support the use of the yeast expression system for recombinant vaccine formulations, enabling the prediction of more cost - effective formulations

Generation and efficacy assessment of a chimeric antigen E2-CD154 as a marker Classical Swine Fever Virus subunit vaccine produced in HEK 293 and CHO K1 mammalian cells

The E2 glycoprotein is the major antigen that induces neutralizing and protective antibodies in CSFV infected pigs, thus a marker vaccine based on this antigen appears to be the most promising alternative to induce a protective immune response against CSFV. However, the structural characteristics of this protein state the necessity to produce glycoprotein E2 in more complex expression systems such as mammalian cells. In this study, we use a lentivirus-based gene delivery system to establish a stable recombinant HEK 293 and CHO K1 cell line for the expression of E2 fused to porcine CD154 as immunostimulatory molecule. In a first experiment, E2his and E2-CD154 were compared in an immunization trial. The average antibody titers in E2his immunized pigs was in the range of 30-40% of blocking and the average antibody titers for E2-CD154 are above 40% at day 14, meaning that the chimeric antigen is able to raise antibodies at positive levels in a shorter time. Additionally, the blocking rate of E2his vaccinated group in ELISA ranged between 66-88% and in the E2-CD154- vaccinated groups ranged between 86-92%, one week after booster immunization. The NPLA antibody titers also increased greatly. Later on, the protective capacity of purified E2-CD154 glycoprotein was demonstrated in a challenge experiment in pigs using a biphasic immunization schedule with 25 and 50 μg. The immunized animals developed neutralizing antibodies that were protective when the animals were faced to a challenge with 105 LD50 of ‘‘Margarita’’ CSFV highly pathogenic strain. No clinical signs of the disease were detected in the vaccinated pigs. Unvaccinated pigs in the control group exhibited symptoms of CSF at 3–4 days after challenge and were euthanized from 7–9 days when the pigs became moribund. These results indicate that E2-CD154 produced in recombinant HEK 293 and CHOK1cell line is a high quality candidate for the development of a safe and effective CSFV subunit vaccine. In the next steps, pilot and production scale, E2-CD154 expression levels should be increased in 10 to 50 fold, arriving to a very attractive productive platform for an implementation of a commercial subunit vaccine against CSF

ARTICULO ORIGINAL COMPLETO/FULL ORIGINAL PAPER - IMMUNITY AND PROTECTION ELICITED BY A RECOMBINANT VACCINE AGAINST ENTEROTOXIGENIC E. coli.

We studied the effectiveness of a recombinant vaccine capable of protecting piglets from enterotoxigenic E. coli during lactation and after weaning. Following this purpose, we vaccinated some pregnant sows with the recombinant vaccine VACOLI^TM (Heber Biotec S.A, P.O.Box 6162, Havana, CUBA), composed of enterotoxigenic E. coli K88ab and K99 recombinant antigens, plus an oil adjuvant. Before weaning piglets were reimmunized to extend protection, and serum samples were tested by an enzyme-linked immunoassay in solid phase to determine the antibody levels against K88ab and K99. The control of E. coli infections was performed by plating stool samples in selective media. There were no death recorded in piglets from vaccinated sows by collibacillosis during lactation, while in piglets from the control sows mortality was of 21%. The morbility and the number of deaths by other causes in the vaccinated group were significantly lower than in the control group. Total protection achieved was 93%. After weaning, mortality caused by E. coli was 0.37% in the vaccinated group of piglets and 21.7% in the control group. The total protection in this period was 98%. RESUMEN Para estudiar la efectividad de una vacuna recombinante capaz de proteger a cerdos contra la E. coli enterotoxica durante la lactancia y despues del destete, se realizo la vacunacion de cerdas gestantes con la vacuna recombinante VACOLI^T

Two initial vaccinations with the Bm86-based Gavac^plusvaccine against <it>Rhipicephalus (Boophilus) microplus </it>induce similar reproductive suppression to three initial vaccinations under production conditions

Abstract Background The cattle tick, Rhipicephalus (Boophilus) microplus, affects livestock production in many regions of the world. Up to now, the widespread use of chemical acaricides has led to the selection of acaricide-resistant ticks and to environmental contamination. Gavacplus is a subunit vaccine based on the recombinant Bm86 tick antigen expressed in yeast, capable to control infestations of R. microplus under controlled and production conditions. The vaccine constitutes the core element of broad control programs against this ectoparasite, in which acquired immunity in cattle to Bm86 is combined with a rational use of acaricides. At present, the conventional vaccine scheme consists of three doses that should be administered at weeks 0, 4 and 7, followed by a booster every six months. Results In this study we assayed a reduction in the number of the initial doses of Gavacplus, evaluated the time course and the level of bovine anti-Bm86 antibodies elicited, and analyzed the vaccine effect on ticks engorging on immunized cattle under production conditions. Following three different immunization schemes, the bovines developed a strong and specific immune response characterized by elevated anti-Bm86 IgG titers. A reduction in the weight of engorging female ticks, in the weight of the eggs laid and also in R. microplus viable eggs percentage was obtained by using only two doses of Gavacplus administered at weeks 0 and 4, followed by a booster six months later. This reduction did not differ from the results obtained on ticks engorging on cattle immunized at weeks 0, 4 and 7. It was also demonstrated that anti-Bm86 antibody titers over 1:640, measured in bovines immunized at weeks 0 and 4, were sufficient to affect weight and reproductive potential of female ticks as compared with ticks engorging on unvaccinated animals. In addition, no statistically significant differences were detected in the average weight of eggs laid by ticks engorged on immunized cattle that showed anti-Bm86 specific titers in the range of 1:640 to 1:81920. Conclusion The administration of two initial doses of Gavacplus containing 100 μg of Bm86 antigen to non-immunized cattle under production conditions is sufficient to affect the weight and the reproductive capacity of R. microplus engorging females. According to these results, cattle herds' manipulation and vaccine costs could be potentially reduced with a positive impact on the implementation of integrated control programs against R. microplus.</p