Condiciones de adsorción de un candidato vacunal basado en vesículas de membrana externa derivada de Salmonella Paratyphi A en adyuvantes de aluminio / Adsorption conditions of a vacunal candidate based on outer membrane vesicles of Salmonella Paratyphi A in aluminum adjuvants

La capacidad inmunoestimuladora de la mayoría de las vacunas es potenciada mediante la adsorción en adyuvantes que contienen aluminio. Variando las condiciones de adsorción (pH, tiempo de adsorción) cambia la cantidad de antígeno adsorbida y por lo tanto la capacidad de estimulación del sistema inmune. El Instituto Finlay de Vacunas investiga un nuevo candidato vacunal basado en vesículas de membrana externa de Salmonella Paratyphi A (VME-SPA). El objetivo de este trabajo fue determinar las condiciones de adsorción de las VME-SPA en dos adyuvantes de sales de aluminio (Al(OH)3 y AlPO4). Para ello, las VME-SPA fueron adsorbidas en ambos adyuvantes bajo diferentes condiciones de pH y tiempo. Mediante la construcción de una Isoterma de Langmuir se determinaron parámetros como la capacidad adsortiva (qm) y el coeficiente de adsorción (Kd). El lote de VME-SPA empleado estaba formado por poblaciones de nanoestructuras con un tamaño de partículas entre 60 y 100 nm. La adsorción de las VME-SPA en ambos adyuvantes, mostró valores ≥95 por ciento a pH neutro (6,5-7,0). Las VME-SPA en presencia de AlPO4 alcanzaron el estado de equilibrio en menor tiempo (99 por ciento a partir de 30 min) en comparación con Al(OH)3 (95 por ciento a partir de 3 h). Las isotermas evaluadas para ambos adyuvantes cumplieron con el modelo de Langmuir (R2≥0,99), con valores de qm y Kd diferentes entre los sistemas de adsorción. El estudio demostró que las VME-SPA se adsorbieron satisfactoriamente en ambos geles, proceso en el que están involucrados diferentes mecanismos de adsorción(AU)

The immunostimulation capacity of most vaccines is enhanced through antigen adsorption on aluminum adjuvants. The changes in adsorption conditions (pH, adsorption time), could change the amount of antigen adsorbed and therefore the ability to stimulate the immune system. The Finlay Institute of Vaccine researches a new vaccine candidate based on outer membrane vesicle from Salmonella Paratyphi A (OMV-SPA). The study aim was to determine adsorption condition of OMV-SPA with two aluminium adjuvants (Al(OH)3 and AlPO4). OMV-SPA was adsorbed in both adjuvants under differences conditions of pH and time. Parameters as adsorptive capacity (qm) and adsorption coefficient (Kd) were determined by construction of Langmuir Isotherm. The lot of OMV-SPA used is composed by population of nanostructure with a particle size between 60 and 100 nm. Adsorption of OMV-SPA in both adjuvants showed values ≥95 percent in neutral pH (6.5-7.0). OMV-SPA with AlPO4 got equilibrium state in less time (99 percent from 30 min) compared with Al(OH)3 (95 percent from 3 h). Isotherms from both adjuvants described Langmuir model (R2≥0.99), with qm and Kd values very different between adsorption systems. As conclusion, the study showed that OMV-SPA was adsorbed satisfactorily in both aluminium adjuvants, process in which are involved different adsorption mechanism(AU)

Evaluation of vaccine candidate potential of ΔaroA, ΔhtrA and ΔaroAΔhtrA mutants of Salmonella enterica subspecies enterica serovar Abortusequi in guinea pigs.

Salmonella enterica subspecies enterica serovar Abortusequi (S. Abortusequi), a host adapted Salmonella causes abortions, still births and foal mortality in equids. Though known since more than 100 years, it is still a problem in many of the developing countries including India. There is dearth of really good vaccine affording immunity lasting at least for one full gestation. In search of a potential vaccine candidate, three defined deletion mutants (ΔaroA, ΔhtrA and ΔaroAΔhtrA) of S. Abortusequi were tested in guinea pig model for attenuation, safety, immunogenicity, humoral immune response, protective efficacy and persistence in host. The ΔhtrA and ΔaroAΔhtrA mutants were found to be safe on oral inoculation in doses as high as 4.2×109 cfu/animal. Also through subcutaneous inoculation ΔaroAΔhtrA mutant did not induce any abortion in pregnant guinea pigs. All the three mutants did not induce any illness or death in 1-2 week-old baby guinea pigs except ΔhtrA mutant which caused mortality on intraperitoneal inoculation. Inoculation with mutants protected against challenge and increased breeding efficiency of guinea pigs. After >4.5 months of mutant inoculation, guinea pigs were protected against abortifacient dose of wild type S. Abortusequi and mother guinea pigs also conferred resistance to their babies to the similar challenge. Early humoral immune response of S. Abortusequi mutants was characteristic. Faecal excretion of ΔaroA and htrA mutants was detected up to 45 days of inoculation in guinea pigs while ΔaroAΔhtrA mutant could not be detected after 21 days of inoculation. The results indicated that the double deletion mutant (ΔaroAΔhtrA) was the most effective and safe candidate for vaccination against S. Abortusequi through mucosal route of inoculation.

Anti-flagellin antibody responses elicited in mice orally immunized with attenuated Salmonella enterica serovar Typhimurium vaccine strains

In the present study we investigated the flagellin-specific serum (IgG) and fecal (IgA) antibody responses elicited in BALB/c mice immunized with isogenic mutant derivatives of the attenuated Salmonella enterica serovar Typhimurium (S. Typhimurium) SL3261 strain expressing phase 1 (FliCi), phase 2 (FljB), or no endogenous flagellin. The data reported here indicate that mice orally immunized with recombinant S. Typhimurium strains do not mount significant systemic or secreted antibody responses to FliCi, FljB or heterologous B-cell epitopes genetically fused to FliCi. These findings are particularly relevant for those interested in the use of flagellins as molecular carriers of heterologous antigens vectored by attenuated S. Typhimurium strains.