Abstract We discuss the suitability of innate immune stimulation in acute respiratory infection post-exposure prophylaxis. The induction of innate immunity can be used to reduce susceptibility to immune-evasive pathogens (coronavirus, influenza virus, respiratory syncytial virus and rhinovirus). After the emergence of multiple SARS-CoV-2 variants, scientists are debating whether new variants could affect vaccine efficacy and how antigens could be redesigned to compensate. In addition, there is insufficient vaccine production to cover universal demand, and equitable vaccine distribution is a global challenge. Given these factors, non-specific immune stimulators may be suitable for a quick first response in the case of a suspected or early respiratory infection. Our group completed several HeberNasvac studies in healthy volunteers and patients with respiratory infections, and is currently starting large clinical trials in patients with early SARS-CoV-2 infections. This nasal formulation of hepatitis B vaccine has demonstrated its capacity to stimulate innate immunity markers (TLR3, TLR7 and TLR8 in tonsils) at the virus’ entry site, in systemic compartments (HLA class II in monocytes and lymphocytes) and in the activation of dendritic cells, lymphocytes and other cell lines in vitro and ex vivo. In addition, research generated by the current pandemic may obtain results useful for treating other acute respiratory infections, which have long been main drivers of mortality among older adults and in early childhood.

Experimental autoimmune encephalomyelitis (EAE), when induced in syngenic C57BL/6 mice by using myelin oligodendrocyte glycoprotein (MOG), usually exhibits a chronic progressive pattern. This model mimics many of the symptoms and clinical signs typical of multiple sclerosis (MS) in humans. The present work describes specific adjustments to the experimental parameters described in the literature that were necessary when implementing this model under our conditions, demonstrating the presence of EAE in experimental animals by means of clinical evaluations, molecular assays and ultrastructural studies. The disorder was induced by active immunization with peptide MOG35-55 emulsified in Freund's Incomplete Adjuvant supplemented with Mycobacterium tuberculosis, together with two additional administrations of Pertussis toxin. All immunized animals exhibited the typical clinical signs of EAE, with a severity that increased progressively from day 8 post-induction to the end of the evaluation, at day 28 post-induction. The maximum clinical score was 3.5, and the disorder was not reversible. Body weight loss was associated with clinical deterioration at the initial stages of the experiment. From a molecular perspective, it was shown that effector cytokines (mainly IL-17) were positively regulated in the brain of diseased animals. The characteristic ultrastructural changes of MS were also detected; namely, demyelination and axonal damage. The methodology described here enabled the implementation of an animal model that reproduces fundamental aspects of the pathogenesis of MS and is, therefore, highly useful for the study of physiopathological mechanisms, the identification of new pharmacological targets and the evaluation of specific biomolecules with therapeutic purposes.

La inducción de la encefalomielitis autoinmune experimental (EAE) mediante la glicoproteína de la mielina del oligodendrocito (MOG) en ratones C57BL/6 isogénicos y homocigóticos, se caracteriza por un patrón crónico progresivo. Este modelo remeda un amplio espectro de síntomas y signos clínicos típicos de la esclerosis múltiple (EM) en humanos. Se describe el ajuste de las condiciones experimentales con respecto a las referidas en la literatura, y se demuestra la generación del modelo mediante evaluaciones clínicas, moleculares y ultraestructurales. La enfermedad se indujo por inmunización activa con el encefalitógeno constituido por el péptido MOG35-55 emulsificado en adyuvante incompleto de Freund, suplementado con Mycobacterium tuberculosis y dos administraciones adicionales de toxina pertussis. Los animales inmunizados mostraron signos clínicos de EAE, cuya severidad aumentó en forma progresiva y ascendente a partir del día 8 después de la inducción, con un puntaje clínico máximo de 3.5, sin reversión hasta el día 28, en que finalizó el periodo de evaluación. La disminución del peso corporal estuvo asociada con el inicio del deterioro clínico. Desde el punto de vista molecular, se identificó una regulación positiva de citocinas efectoras en el cerebro de los animales enfermos, principalmente de la IL-17. Se observaron daños ultraestructurales característicos de la EM en la mielina y el axón. La metodología permitió la generación de un modelo animal con elementos esenciales de la patogénesis de la EM y, por tanto, útil para el estudio de mecanismos fisiopatológicos, la identificación de nuevos blancos farmacológicos y la evaluación de biomoléculas con fines terapéuticos.

Reactogenecity and immunogenicity of the Cuban anti-HBV vaccine called Herberbiovac HB were evaluated in 2 942 adults and 804 children from a number of countries in 3 continents by using 3 doses of this vaccine with different innoculation schedules and routes of administration. Only pain and local induration were found in 15 to 25% of the vaccinated people. Seroprotection was as follows: 98% in children and 82% in adults , with only two doses of vaccination 60 days after the starting of the schedule; 92% and 100% respectively 75 days after the completion of the vaccination program; over 96% in adults after one year when the IM administration was used. After 2 years of finishing the vaccination, seroprotection reached 100% in children and adults alike with a hyperesponse of 79% and 71% respectively. The vaccine Heberbiovac HB shows high immunogenicity with very short latency, intensity higher than other plasmatic and recombinant vaccines and great durability. This vaccine had an booster effect on those individuals showing hyperesponse to other anti-HB vaccines because 15 days after the innoculation, 75% of vaccinated persons had protective antibodies in their sera

Se evaluaron la reactogenicidad e inmunogenicidad de la vacuna cubana antihepatitis B (Heberbiovac HB) en 2 942 adultos y 804 niños de diferentes países pertenecientes a 3 continentes con el empleo de esta vacuna con 3 dosis, diferentes esquemas y vías de inoculación. Sólo se encontró dolor e induración local entre 15 a 25 % de los vacunados. La seroprotección se comportó como sigue: a los 60 d después de iniciado el esquema, con sólo 2 dosis, fue de 98 % en niños y 82 % en adultos; 75 d después de finalizado el esquema estuvo entre 92 y 100 %; al año se mantenía con seroprotección más de 96 % de los adultos cuando se usó la vía intramuscular, y después de transcurridos 2 años de terminada la vacunación se encontró 100 % de seroprotección en niños y adultos e hiperrespuesta de 79 y 71%, respectivamente. La vacuna Heberbiovac HB tiene gran inmunogenicidad con muy corta latencia, intensidad superior a otras vacunas de origen plasmático y recombinante, y gran durabilidad. Esta vacuna tuvo un efecto booster manifiesto en los que tuvieron hiporrespuesta a otras vacunas contra hepatitis B, pues 15 d después del inóculo, 75 % tuvo cifras de anticuerpos protectoras en el suero