Mucosal and systemic immune responses induced by a single time vaccination strategy in mice.

Vaccination is considered by the World Health Organization as the most cost-effective strategy for controlling infectious diseases. In spite of great successes with vaccines, many infectious diseases are still leading killers, because of the inadequate coverage of many vaccines. Several factors have been responsible: number of doses, high vaccine reactogenicity, vaccine costs, vaccination policy, among others. Contradictorily, few vaccines are of single dose and even less of mucosal administration. However, more common infections occur via mucosa, where secretory immunoglobulin A plays an essential role. As an alternative, we proposed a novel protocol of vaccination called Single Time Vaccination Strategy (SinTimVaS) by immunizing 2 priming doses at the same time: one by mucosal route and the other by parenteral route. Here, the mucosal and systemic responses induced by Finlay adjuvants (AF Proteoliposome 1 and AF Cochleate 1) implementing SinTimVaS in BALB/c mice were evaluated. One intranasal dose of AF Cochleate 1 and an intramuscular dose of AF Proteoliposome 1 adsorbed onto aluminum hydroxide, with bovine serum albumin or tetanus toxoid as model antigens, administrated at the same time, induced potent specific mucosal and systemic immune responses. Also, we demonstrated that SinTimVaS using other mucosal routes like oral and sublingual, in combination with the subcutaneous route elicits immune responses. SinTimVaS, as a new immunization strategy, could increase vaccination coverage and reduce time-cost vaccines campaigns, adding the benefits of immune response in mucosa.

[Immunological adjuvants. Determinant factors in the efficacy-toxicity ratio of the contemporary vaccines]. / Adyuvantes inmunológicos. Determinantes en el balance eficacia-toxicidad de las vacunas contemporáneas.

To achieve effective and safe vaccines for the prevention of not yet controlled or re-emergent infectious diseases, one of the more importance aspects is to have immunological adjuvants that allow inducing a protective immune response with an appropriate safety profile. Since 1926 the aluminium compounds have been used as adjuvants for human vaccines, and only in the last 10 years have some new products been registered. Although there an enormous quantity of proposed candidates, the toxicity is the main factor that has limited their introduction into the clinic. In this work the mechanism of action are updated, and the toxicity of the immunological adjuvants are revised, especially those that have obtained clinical approval or are close to getting it.

Pilot scale production of the vaccine adjuvant Proteoliposome derived Cochleates (AFCo1) from Neisseria meningitidis serogroup B.

The use of new adjuvants in vaccine formulations is a subject of current research. Only few parenteral adjuvants have been licensed. We have developed a mucosal and parenteral adjuvant known as AFCo1 (Adjuvant Finlay Cochleate 1, derived from proteoliposomes of N. meningitidis B) using a dialysis procedure to produce them on lab scale. The immunogenicity of the AFCo1 produced by dialysis has been already evaluated, but it was necessary to demonstrate the feasibility of a larger-scale manufacturing process. Therefore, we used a crossflow diafiltration system (CFS) that allows easy scale up to obtain large batches in an aseptic environment. The aim of this work was to produce AFCo1 on pilot scale, while conserving the adjuvant properties. The proteoliposomes (raw material) were resuspended in a buffer containing sodium deoxycholate and were transformed into AFCo1 under the action of a calcium forming buffer. The detergent was removed from the protein solution by diafiltration to a constant volume. In this CFS, we used a hollow fiber cartridge from Amicon (polysulfona cartridge of 10 kDa porosity, 1mm channel diameter of fiber and 0.45 m² area of filtration), allowing production of a batch of up to 20 L. AFCo1 were successfully produced by tangential filtration to pilot scale. The batch passed preliminary stability tests. Nasal immunization of BALB/c mice, induced specific saliva IgA and serum IgG. The induction of Th1 responses were demonstrated by the induction of IgG2a, IFNγ and not IL-5. The adjuvant action over Neisseria (self) antigens and with co-administered (heterologous) antigens such as ovalbumin and a synthetic peptide from haemolytic Streptococcus B was also demonstrated.

Immunogenicity of a novel anti-allergic vaccine based on house dust mite purified allergens and a combination adjuvant in a murine prophylactic model.

The outer-membrane-derived proteoliposome (PL) of Neisseria meningitidis has been reported as a potent vaccine adjuvant, inducing a Th1-skewed response. This work aimed to assess the immunogenicity of a novel anti-allergic vaccine candidate based on allergens from Dermatophagoides siboney house dust mite and a combination adjuvant containing PL and Alum. In a preventative experimental setting, BALB/c mice were administered with three doses containing 2 µg of Der s1 and 0.4 µg Der s2 allergen, PL and Alum, at 7 days intervals, by subcutaneous route. Furthermore, mice were subjected to an allergen aerosol challenge for 6 consecutive days. Serum IgE, IgG1, and IgG2a allergen-specific antibodies were assessed by ELISA. Cytokine levels in supernatants of D. siboney stimulated lymphocyte cultures and in bronchoalveolar lavage (BAL) were measured by ELISA. Lung tissues were subjected to histological examination. The vaccine prevented the development of both, systemic (IgE) and local allergic responses (featuring lower IL-4, and IL-5 levels in BAL) upon allergen exposure by the inhalant route. Histological examination showed also a diminished allergic inflammatory response in the lungs. After the allergen challenge, cytokine levels in stimulated lymphocyte cultures showed lower values of IL-13 and augmented IFN-γ and IL-10. The vaccine induced a mixed IgG2a/IgG1 antibody response; although only IgG2a was PL-dependent. Both, IgG1/IgE and IgG2a/IgE ratios, showed significantly greater values in vaccinated mice. The findings support a preventative anti-allergic effect associated with the induction of a Th1-like IFN-γ/IL-10 response. IgG1/IgE and IgG2a/IgE ratios could be useful biomarkers for translation into clinical trials.

AFCo1 as nasal adjuvant of capsular polysaccharide from Neisseria meningitidis serogroup C induces systemic and mucosal immune responses.

Increasing emphasis is being placed on the mucosal administration of vaccines in order to stimulate mucosal as well as systemic responses. Findings from our group suggest that proteoliposome-derived cochleate (AFCo1) acts as a potent mucosal adjuvant. As an alternative to chemical conjugation, the current study aimed to determine the benefit of using AFCo1 to improve the mucosal and systemic immune responses to capsular polysaccharide of Neisseria meningitidis serogroup C (PsC), a model of a thymus-independent (TI) antigen. Therefore, intranasal (i.n.) immunization of 3 doses 1 week apart with AFCo1 plus PsC in mice was conducted. Highly specific anti-PsC IgA responses and an anti-PsC IgG response were obtained. The subclass pattern induced against PsC was similar to that induced with the meningococcal vaccine. In summary, AFCo1 as nasal adjuvant was demonstrated to be capable of eliciting mucosal and systemic specific responses against a TI antigen.

Mucosal and systemic immune responses of mice to tetanus toxoid coadministered nasally with AFCo1.

Mucosal immune responses are an early and important line of defense against pathogens. The current understanding of the mucosal immune system allows us to consider the use of nasal immunization for induction of antigen-specific immune responses at the mucosal surface and the systemic compartment. Mucosal adjuvants are key for developing novel mucosal vaccines and represent 1 approach to improving mucosal and systemic immunity. However, few mucosal vaccine adjuvants are currently approved for human use. Neisseria meningitidis B proteoliposome-derived cochleate (AFCo1 - Adjuvant Finlay Cochleate 1) has been demonstrated to be a potent mucosal adjuvant. The present work demonstrates that intranasal immunization of 3 doses of tetanus toxoid (TT) coadministered with AFCo1 in mice promotes high systemic and mucosal responses. The anti-TT IgG serum titers and the mucosal anti-TT IgA in saliva and vaginal wash were significantly higher than TT alone. The analysis of antibody subclasses showed that intranasal administration of AFCo1 + TT induced not only IgG1 but also IgG2a anti-TT antibodies at levels comparable to those obtained with TT vaccine (vax-TET). These data support the fact that AFCo1 is a potent mucosal adjuvant in nasal immunization to a coadministered protein antigen.

Mucosal immunization using proteoliposome and cochleate structures from Neisseria meningitidis serogroup B induce mucosal and systemic responses.

Most pathogens either invade the body or establish infection in mucosal tissues and represent an enormous challenge for vaccine development by the absence of good mucosal adjuvants. A proteoliposome-derived adjuvant from Neisseria meningitidis serogroup B (AFPL1, Adjuvant Finlay Proteoliposome 1) and its derived cochleate form (Co, AFCo1) contain multiple pathogen-associated molecular patterns as immunopotentiators, and can also serve as delivery systems to elicit a Th1-type immune response. The present studies demonstrate the ability of AFPL1and AFCo1 to induce mucosal and systemic immune responses by different mucosal immunizations routes and significant adjuvant activity for antibody responses of both structures: a microparticle and a nanoparticle with a heterologous antigen. Therefore, we used female mice immunized by intragastric, intravaginal, intranasal or intramuscular routes with both structures alone or incorporated with ovalbumin (OVA). High levels of specific IgG antibody were detected in all sera and in vaginal washes, but specific IgA antibody in external secretions was only detected in mucosally immunized mice. Furthermore, antigen specific IgG1 and IgG2a isotypes were all induced. AFPL1 and AFCo1 are capable of inducing IFN-gamma responses, and chemokine secretions, like MIP-1alpha and MIP-1beta. However, AFCo1 is a better alternative to induce immune responses at mucosal level. Even when we use a heterologous antigen, the AFCo1 response was better than with AFPL1 in inducing mucosal and systemic immune responses. These results support the use of AFCo1 as a potent Th1 inducing adjuvant particularly suitable for mucosal immunization.

Intranasal administration of proteoliposome-derived cochleates from Vibrio cholerae O1 induce mucosal and systemic immune responses in mice.

Conservative estimates place the death toll from cholera at more than 100,000 persons each year. A particulate mucosal vaccine strategy combining antigens and immune stimulator molecules from Vibrio cholerae to overcome this problem is described. Proteoliposomes extracted from V. cholerae O1 were transformed into cochleates (AFCo2, Adjuvant Finlay cochleate 2) through a calcium inducible rotary dialysis method. Light microscopy was carried out and tubules of 16.25+/-4.57 microm in length were observed. Western blots were performed to verify the immunochemical properties of the main AFCo2 incorporated antigens, revealing full recognition of the outer membrane protein U (OmpU), lipopolysaccharide (LPS), and mannose-sensitive hemagglutinin (MSHA) antigens. AFCo2 were administered by the intranasal route using a two or three dose schedule and the immune response against V. cholerae antigens was assessed. Three AFCo2 doses were required to induce significant (p<0.05), antigen specific IgA in saliva (1.34+/-0.135) and feces (0.60+/-0.089). While, two or three doses of AFCo2 or proteoliposomes induce similar specific IgG and vibriocidal activity responses in sera. These results show for the first time that AFCo2 can be obtained from V. cholerae O1 proteoliposomes and have the potential to protect against the pathogen when administered intranasally.

Glutamato monosódico y suprasistema neuroendocrinoinmune murino

Introducción: El glutamato monosódico se emplea en humanos desde el pasado siglo como potenciador del sabor. Su inoculación parenteral en murinos durante el período neonatal causa lesiones en varios núcleos hipotalámicos. Objetivo: Describir los efectos del glutamato monosódico sobre el sistema neuroendocrinoinmune en murinos. Metodos: Se realizó una revisión de artículos de libre acceso en las bases de datos PubMed y SciELO entre enero de 2013 y julio de 2020. También se examinó el texto básico de la asignatura Sangre y Sistema Inmune de la carrera de medicina. Desarrollo: Con independencia de su efecto adictivo, varios estudios defienden la inocuidad del glutamato monosódico. Sin embargo, este compuesto puede atravesar la barrera hematoencefálica de neonatos de murinos, y ocasionar trastornos metabólicos, reproductivos y del sistema inmune. Conclusiones: El glutamato monosódico en roedores causa alteraciones en los órganos que integran el suprasistema neuroendocrinoinmune y, por tanto, afecta sus funciones homeostáticas. Los mecanismos patogénicos no se conocen con exactitud.

Introduction: Monosodium glutamate has been used in humans since the last century as a flavor enhancer. Its parenteral inoculation in murine during the neonatal period causes lesions in several hypothalamic nuclei. Objective: To describe the effects of monosodium glutamate on the neuroendocrine immune system in murine samples. Methods: A review of open access articles in the PubMed and SciELO databases was conducted between January 2013 and July 2020. The basic text of the Blood and Immune System course of the medical school was also reviewed. Development: Regardless of its addictive effect, several studies defend the safety of monosodium glutamate. However, this compound can cross the blood-brain barrier of murine neonates, causing metabolic, reproductive and immune system disorders. Conclusions: Monosodium glutamate in rodents causes alterations in the organs that make up the neuroendocrine-immune suprasystem and, therefore, affects their homeostatic functions. The pathogenic mechanisms are not known exactly.

Nasal immunization of mice with AFCo1 or AFPL1 plus capsular polysaccharide Vi from Salmonella typhi induces cellular response and memory B and T cell responses.

The response to infection against Salmonella involves both B and T cell mediated immunity. An effective immunization can activate an adequate immune response capable to control the primary infection and protect against a secondary infection. Mucosal vaccination, by inducing local pathogen-specific immune responses, has the potential to counter mucosally transmitted pathogens at the portal of entry, thereby increasing the efficacy of vaccines. The aim of this work was to explore the efficacy of AFCo1 or AFPL1, as mucosal adjuvants to stimulate cell immunity and memory responses against Vi polysaccharide antigen of Salmonella typhi (PsVi). Mice immunized with 3 intranasal doses exhibited high levels of PsVi-specific IgG (p<0.05), IgG2a and IgG2c subclasses. Also, an amplified recall response after a booster immunization with a plain polysaccharide vaccine was induced. Avidities index were higher in mice immunized with adjuvanted formulations at different chaotropic concentrations. Furthermore, IL-12 and IFN-γ levels in nasally vaccinated mice with both adjuvants were induced. Moreover, priming with 3 doses followed by booster immunization with VaxTyVi(®) resulted in high levels of anti-Vi specific IgG, IgG subclasses and antibody avidity. Long lived plasma cells in bone marrow, memory B cells and long-term memory T cells after booster dose were induced. The combined formulation of Vi polysaccharide with mucosal adjuvants provides an improved immunogenicity, in particular with regard to cellular responses and long lasting cells responses.

Combined meningococcal serogroup A and W135 outer-membrane vesicles activate cell-mediated immunity and long-term memory responses against non-covalent capsular polysaccharide A.

Outer-membrane vesicles (OMVs) have inherent adjuvant properties, and many vaccines use OMV as vaccine components. Utilizing the adjuvant properties of OMV could lead to the formulation of vaccines that are less expensive and potentially more immunogenic than covalently conjugated polysaccharide vaccines. We evaluated the adjuvant effect in Balb/c mice of combinations of OMV from Neisseria meningitidis serogroup A and W135 as compared to that of the non-covalently conjugated capsular polysaccharide A. Both antigens were adsorbed onto aluminum hydroxide. The mice were given a booster dose of plain polysaccharide A to stimulate an immunologic memory response. Subclasses determination and cytokine assays demonstrated the capacity of OMV to induce a IgG2a/IgG2b isotype profile and IFN-γ production, suggesting the induction of a Th1 pattern immune response. Lymphoproliferative responses to OMVs were high, with affinity maturation of antibodies observed. Bactericidal titers after the booster dose were also observed. Memory B cells and long-term memory T cells were also detected. The results of this study indicate that combined meningococcal serogroup A and W135 OMV can activate cell-mediated immunity and induce a long-term memory response.

Adjuvants are Key Factors for the Development of Future Vaccines: Lessons from the Finlay Adjuvant Platform.

The development of effective vaccines against neglected diseases, especially those associated with poverty and social deprivation, is urgently needed. Modern vaccine technologies and a better understanding of the immune response have provided scientists with the tools for rational and safer design of subunit vaccines. Often, however, subunit vaccines do not elicit strong immune responses, highlighting the need to incorporate better adjuvants; this step therefore becomes a key factor for vaccine development. In this review we outline some key features of modern vaccinology that are linked with the development of better adjuvants. In line with the increased desire to obtain novel adjuvants for future vaccines, the Finlay Adjuvant Platform offers a novel approach for the development of new and effective adjuvants. The Finlay Adjuvants (AFs), AFPL (proteoliposome), and AFCo (cochleate), were initially designed for parenteral and mucosal applications, and constitute potent adjuvants for the induction of Th1 responses against several antigens. This review summarizes the status of the Finlay technology in producing promising adjuvants for unsolved-vaccine diseases including mucosal approaches and therapeutic vaccines. Ideas related to adjuvant classification, adjuvant selection, and their possible influence on innate recognition via multiple toll-like receptors are also discussed.

Can mucosal adjuvants contribute to the induction of immunological memory induced via unconjugated T-cell-independent antigens?

Vaccination remains the most cost-effective method for preventing infectious diseases. Key to vaccine design is the development of immunological memory, which is an essential property of the adaptive immune system. Bacterial polysaccharide conjugate vaccines are the gold standard currently used to confer protection of the host by inducing humoral immune responses against T-cell-independent antigens. Conjugate vaccines are effective, but we propose that local mucosal immune responses are likely to also play an important role in inducing immunity, and they have been less explored than systemic and adaptive immune responses. Adjuvants have been used to improve the immune response to vaccine antigens, however, no mucosal adjuvant has been licensed for human use. Here we describe the recent progress in the use of mucosal adjuvants to achieve significant immune responses against T-cell-independent antigens. We also introduce the idea that studying the mechanisms that induce cell sub-populations with strong immunological memory may facilitate the design of novel vaccine formulations, in particular in cases of B-cell unresponsiveness to thymus-independent stimuli.

The golden era of vaccine adjuvants.

A 5-day workshop on adjuvant for vaccines was held in Trinidad, Cuba, on the 16-21 May 2010. Organized by the Latin American Association for Immunology and the Cuban Society for Immunology, the workshop attracted more than 60 scientists from different parts of the world. The meeting summarizes current knowledge regarding vaccine adjuvants, including delivery systems and parasitic vaccines. Main discussion topics were the discovery of new adjuvant formulations, action mechanisms for adjuvants, adjuvants for a different route of immunization, focused on mucosal vaccines, and nano- and micro-particles as a delivery system. This article highlights the most important issues presented.

Adyuvantes inmunológicos. Determinantes en el balance eficacia-toxicidad de las vacunas contemporáneas / Immunological adjuvants. Determinant factors in the efficacy-toxicity ratio of the contemporary vaccines

Para lograr vacunas eficaces y seguras para la prevención de enfermedades infecciosas aún no controladas o re-emergentes, uno de los aspectos de mayor importancia es contar con adyuvantes que permitan inducir una respuesta protectora efectiva con un adecuado perfil de seguridad. El hidróxido de aluminio se ha utilizado como adyuvante en vacunas humanas desde 1926, y solo en los últimos 10 años se han registrado algunos nuevos productos, a pesar de la enorme cantidad de candidatos propuestos, siendo la toxicidad el principal factor que ha limitado su introducción en la clínica. En este trabajo se actualizan los últimos avances en cuanto a mecanismos de acción y toxicidad de los adyuvantes vacunales y se revisan los adyuvantes que han obtenido licencias sanitarias y otros que están próximos a lograrlo

To achieve effective and safe vaccines for the prevention of not yet controlled or re-emergent infectious diseases, one of the more importance aspects is to have immunological adjuvants that allow inducing a protective immune response with an appropriate safety profile. Since 1926 the aluminium compounds have been used as adjuvants for human vaccines, and only in the last 10 years some new products have been registered. Although there an enormous quantity of proposed candidates, the toxicity is the mainfactor that has limited their introduction into the clinic. In this work the mechanism of action are updated, and the toxicity of the immunological adjuvants are revised, especially those that have obtained clinical approval or are close to getting it

Inmunopotenciadores para la acuicultura / Immune–potentiators for the Aquaculture

La acuicultura es una de las actividades económicas de mayor crecimiento para la producción de alimentos. Unode sus principales retos es la obtención de grandes volúmenes de producción con la mayor calidad posible. Esto conlleva a una reducción de la aplicación de antibióticos y productos quimioterapéuticos. Una de las estrategias más prometedoras es la aplicación de inmunopotenciadores, principalmente en los cultivos intensivos. El objetivode este trabajo fue revisar los principales inmunopotenciadores, así como las tendencias y retos de su uso mundial. Se resumen las particularidades moleculares y funcionales de los mismos y se hace énfasis en los más estudiados: levamisol, ß-glucanos, lipopolisacárido, vitamina C, extractos de plantas y hormonas. Todos estos compuestos de naturaleza heterogénea inciden mayoritariamente en los componentes de la inmunidad innata de los peces, fortaleciendo y potenciando la resistencia a enfermedades; adicionalmente algunos de ellostienen funciones antiestrés y favorecen su crecimiento. Se concluye que los inmunopotenciadores constituyen una estrategia viable para reducir las pérdidas por problemas sanitarios en el sector de la acuicultura; pero aún quedan por solucionar aspectos como la vía de administración y la etapa de inmunización adecuada para cadaespecie y tipo de cultivo(AU)

Aquaculture represents one of the fastest–growing animal food–producing sectors worldwide. One of the mainchallenges is to obtain high–volume production with the highest possible quality, this leads to reduce the use ofantibiotics and chemotherapeutics. A promising solution to these problems is the application of immune–potentiatiors mainly in intensive farming. This article aims to review the main immune–potentiators, as well as thetrends and challenges of global use of them. It summarizes the main molecular and functional characteristics withemphasis on those most studied such as levamisole, ß-glucans, lipopolysaccharide, vitamin C, plant extracts andhormones. All these heterogeneous compounds, mostly affect the innate immunity of fish, strengthening andenhancing disease resistance and some of them additionally have anti–stress effect and promote fish growth. Weconclude that immune–potentiators are a viable strategy to reduce losses for health problems in aquaculture field,however, aspects such as administration route and appropriate immunization phase for each species remains tobe solved(AU)

Estudio in vitro de liberación de proteínas de AFCo1 y sus implicaciones en la inmunización mucosal / In vitro study of protein release from AFCo1 and implications in mucosal immunisation

El cocleato adyuvante Finlay (AFCo1) 1 es derivado de un proteopolisoma de Neisseria meningitidis serogrupo B. La transformación de los proteoliposomas en AFCo1 potencia la respuesta inmune de los antígenos de Neisseria cuando se administra por vía intranasal o intragástrica. Se ha demostrado, sin embargo, que la vía intranasal es más efectiva. Los objetivos de este trabajo fueron evaluar in vitro la liberación de proteínas del AFCo1 en líquido nasal o gástrico simulado, usando para ello la prueba de microdisolución y apoyar los resultados obtenidos cuando se administró AFCo1 por vía intranasal o intragástrica en ratones BALB/c. Los resultados demostraron que la dilución de AFCo1 en líquido gástrico o nasal simulado afecta la distribución de los antígenos de proteína de Neisseria , ya que estos se liberaron de las estructuras de cocleatos más rápido cuando se utilizó líquido nasal. Se concluyó que las condiciones que simulan el entorno gástrico afectan la distribución de los antígenos de proteínas de AFCo1 y este resultado puede explicar parcialmente porqué la administración intranasal es más efectiva in vivo que la inmunización intragástrica(AU)

Adjuvant Finlay Cochleate 1 (AFCo1) is a Proteoliposome-derived cochleate obtained from Neisseria meningitidisserogroup B. Transformation of proteoliposomes into AFCo1 potentiates the immune response on Neisseriaantigens when it is administered by intranasal or intragastric (i.g) routes. However, the i.n route has beendemonstrated to be more effective. The aim of this work is to evaluate in vitro the protein release from AFCo1, insimulated gastric fluid (SGF) or simulated nasal fluid (SNF) using a microdissolution test and to provide support for the results found when AFCo1 was administered by i.g or i.n routes in BALB/c mice. Results showed that dilution of AFCo1 in simulated gastric fluid affects the delivery of Neisseria protein antigens because they were released from cochleate structures faster than when simulated nasal fluid was used. In conclusion, conditions simulating gastric environment affect the delivery of protein antigens from AFCo1 and this result could partially explain whyin administration is more effective in vivo than in immunisation(AU)

La gD2 coadministrada con el AFCo1 por vía intranasal induce inmunidad protectora contra virus de herpes simple tipo 2 en ratones / gD2 coadministered with AFCo1 by intranasal route induces protective immunity against Virus Herpes Simplex type 2 in mice

La infección por virus herpes simple tipo 2 (VHS-2) continúa siendo un problema de salud mundial. Esta infección es transmitida sexualmente y es la principal causa de úlceras genitales. La prevención de esta enfermedad requiere de la utilización de vacunas mucosales, pues las vacunas parenterales no han sido exitosas. Por otra parte, no existen adyuvantes mucosales, por lo que el desarrollo de estos es esencial para la estrategia de estas vacunas. La administración intranasal (IN) de la glicoproteína D del VHS-2 (gD2), coadministrada con el cocleato (AFCo1+gD2) sería igualmente efectiva con la gD2 incluida (AFCo1-gD2). Se inocularon ratones hembras C57BL/6 por la vía IN con gD2, contenida dentro del cocleato, coadministrada con el cocleato o gD2 sola. Se determinaron los niveles de IgG anti gD2 en suero y lavado vaginal, así como las subclases de IgG anti gD2 por ELISA. Se determinó la respuesta linfoproliferativa en células de bazo, el perfil de citoquinas Th1/Th2, los signos de la enfermedad y la protección frente al reto viral. Se observaron altos títulos de IgG e IgG2c anti gD2 en el suero de los animales inoculados con la gD2 y el AFCo1 como adyuvante. No se observaron diferencias significativas (p>0,05) entre los grupos que recibieron AFCo1+gD2 y los que recibieron AFCo1-gD2. Se observó un perfil de citoquinas tipo Th1 y un 100 por ciento de sobrevida en los grupos que recibieron el AFCo1 como adyuvante de la gD2, mientras que en el grupo que recibió la gD2 sola no se observó protección. Estos resultados indican que la gD2 puede ser utilizada coadministrada con AFCo1 por vía IN como un potencial candidato vacunal contra VHS-2(AU)

Sexually transmitted infections by Herpes Simplex Virus type 2 (HSV-2) are the leading cause of genital ulcers and a major public health problem worldwide. This requires the use of mucosal vaccines, because parenteral vaccines have not been successful. Presently, there are not mucosal adjuvants, for this reason the development of adjuvants is essential for mucosal vaccine strategies. The intranasal (IN) immunizations using HSV-2 glycoprotein D (gD2), coadministered with cochleate (AFCo1+gD2), would be an efficient candidate for future vaccines against HSV2, similar to the gD2 incorporated into AFCo1(AFCo1-gD2). Female C57Bl/6 mice were inoculated with AFCo1-gD2, AFCo1+gD2 or gD2 alone by IN route. The anti gD2 IgG in sera and vaginal fluids and IgG subclasses were measured by ELISA. The lymphoproliferative response in spleen cells, the Th1/Th2 cytokine profile, the protection and the signs of disease against viral challenge were measured. High titers of IgG and IgG2c subclasses were observed in sera of mice that received the gD2 and AFCo1 as adjuvant. No significant differences (p>0.005) were observed in the animals that received AFCo1+gD2 or AFCo1-gD2. a preferential Th1 cytokine profile and 100 percent of survival after challenge were observed in both groups that received the gD2 and AFCo1, while no survival was observed in the group that only received the gD2. These results showed that the gD2 can be used coadministered with AFCo1 by IN route as a potential vaccine candidate against HSV-2(AU)

Influencia de las vías de inmunización mucosales sobre la protección contra herpes simple tipo 2 con el AFCo1 como adyuvante / Influence of mucosal immunization routes on herpes simplex virus type 2 protection with AFCol as adjuvant

Las vacunas mucosales se han planteado como una estrategia prometedora para inducir protección mucosal. El virus herpes simple tipo 2 es uno de los patógenos más frecuentes en el humano transmitidos por vía sexual. Varios candidatos vacunales contra este patógeno se han evaluado, pero no han sido efectivos, por lo que aún no se cuenta con una vacuna profiláctica ni terapéutica. La gD2 es una glicoproteína recombinante y está reportada como uno de los antígenos de importancia vacunal contra este germen. Contamos con el cocleato derivado del proteoliposoma de Neisseria meningitidis serogrupo B (AFCo1) que ha mostrado capacidades adyuvantes por varias vías de inmunización. El objetivo de este trabajo fue evaluar la protección inducida en ratones por el AFCo1-gD2, administrada por diferentes vías mucosales. Se utilizaron ratones hembras C57BL6, los cuales fueron inmunizados por vía intranasal (IN), intravaginal (IVag) o intrarrectal (IR) con AFCo1-gD2 o gD2 sola. Se determinó la IgG anti gD2, la proliferación celular específica, la replicación viral en lavado vaginal, los signos de la enfermedad y la protección frente al reto viral. Se obtuvo respuestas significativas de IgG anti gD2 por todas las vías, aunque la IN mostró los valores más elevados. Se observó proliferación celular en células de animales inmunizados IN e IVag, pero no por vía IR. Se observó la mayor protección (100 por ciento) en los animales inmunizados por vía IN. Se concluye que la vía nasal es la más prometedora en la inducción de protección contra este reto viral(AU)

Mucosal vaccines are a promising strategy to induce mucosal protection. Herpes simplex virus type 2 is the commonest pathogens in the human transmitted by exposure at the genital mucosal surfaces. Many vaccine candidates against this pathogen have been evaluated; but they have not been effective, and neither a prophylactic nor a therapeutic vaccine has been yet obtained. The gD2 is a recombinant glycoprotein and it is reported as one of the antigens of importance for vaccine against this virus. There is the cochleate (AFCo1) derived from proteoliposome of Neisseria meningitidis serogroup B. This cochleate has shown potentialities as adjuvant for several immunization routes. The objective of this study was to evaluate the protection induced in mice by the AFCo1-gD2 administered by different mucosal routes. Female mice C57BL/6 were used and immunized by: intranasal (IN), intravaginal (IVag), or intrarectal (IR) routes with AFCo1-gD2 or gD2 alone. The anti-gD2 IgG and specific cellular proliferation were determined and the viral replication in vaginal wash, the signs of disease and the protection against the viral challenge, were measured too. A significant anti-gD2 IgG response was obtained by all routes, although the IN route showed the highest values. Cellular proliferation was observed in cells of animals immunized IN and IVag route; but not by IR route. In addition, a higher protection (100 percent) in the animals immunized with AFCo1-gD2 by IN route was observed. In conclusion the intranasal is the most promising route in the protection induction against this viral challenge(AU)

Strategy for determination of an efficient Cochleate particle size.

Cochleate structures obtained from the outer membrane of Neisseria meningitidis serotype B have demonstrated to be high immunogenicity when administrated by intramuscular, oral or intranasal routes, and could be used as adjuvant and meningococcal nasal vaccine candidate. Due to the microparticulate nature of Cochleate it is necessary to control the particle size since it capture by cells of the immune system could be affected by this aspect. We combined optic microscopy and immunisation experiments to select the optimum particle size. Six different processes of producing Cochleate obtaining were evaluated and different mechanical stress conditions were carried out to homogenize and modulate the particles size. The more immunogenic particles were selected on the basis of the levels of specific IgA and IgG antibodies induced after intranasal immunisation in mice. The best treatment parameter for mechanical stress of the Cochleate was prolonged treatment with untrasonic low frequency waves.