Outer membrane vesicles extracted from Neisseria meningitidis serogroup X for prevention of meningococcal disease in Africa.

Meningococcal disease is caused mainly by serogroups A, B, C, Y, W of N. meningitidis. However, numerous cases of meningitis caused by serogroup X N. meningitidis (MenX) have recently been reported in several African countries. Currently, there are no licensed vaccines against this pathogen and most of the MenX cases have been caused by meningococci from clonal complex (c.c) 181. Detergent extracted meningococcal outer membrane vesicle (dOMV) vaccines have previously shown to be safe and effective against epidemics of serogroup B meningococcal disease in all age groups. The aim of this work is therefore to obtain, characterize and evaluate the vaccine potential of dOMVs derived from a MenX strain (OMVx). Three experimental lots of OMVx were prepared by deoxycholate extraction from the MenX strain BF 2/97. Size and morphology of the vesicles was determined by Dynamic Light Scattering and electron microscopy, whereas the antigenic composition was characterized by gel electrophoresis and immunoblotting. OMVx were thereafter adsorbed to aluminium hydroxide (OMVx/AL) and two doses of OMVx were administered s.c. to groups of Balb/c mice three weeks apart. The immunogenicity and functional antibody activities in sera were evaluated by ELISA (anti-OMVx specific IgG responses) and serum bactericidal activity (SBA) assay. The size range of OMVx was shown to be between 90 and 120nm, whereas some of the antigens detected were the outer membrane proteins PorA, OpcA and RmpM. The OMVx/AL elicited high anti-OMVx antibody responses with bactericidal activity and no bactericidal activity was observed in the control group of no immunised mice. The results demonstrate that OMVx are immunogenic and could form part of a future vaccine to prevent the majority of meningococcal disease in the African meningitis belt.

Postirradiation pseudosclerodermatous panniculitis: three new cases with additional histopathologic features supporting the radiotherapy etiology.

Postirradiation pseudosclerodermatous panniculitis is a rare panniculitic disorder induced by radiotherapy. Clinically, it consists of an indurate plaque localized on the irradiated area that may appear months or even years after radiotherapy was administered. Histopathologically, postirradiation pseudosclerodermatous panniculitis is characterized by a mostly lobular panniculitis without vasculitis, with lipophagic granuloma involving the fat lobules, a variable inflammatory infiltrate of lymphocytes and plasma cells and sclerotic thickening of the connective tissue septa of the subcutis. We report 3 additional cases of this rare variant of panniculitis, in which besides the panniculitis findings, dermal vessels showed sclerotic vessel walls and atypical bizarre fibroblasts with large pleomorphic and hyperchromatic nuclei were interstitially arranged between collagen bundles of the dermis. These dermal findings represent additional histopathologic features supporting the pathogenic role of the radiotherapy in the development of this rare variant of panniculitis.

A peptide derived from HSP60 reduces proinflammatory cytokines and soluble mediators: a therapeutic approach to inflammation.

Cytokines are secretion proteins that mediate and regulate immunity and inflammation. They are crucial in the progress of acute inflammatory diseases and autoimmunity. In fact, the inhibition of proinflammatory cytokines has been widely tested in the treatment of rheumatoid arthritis (RA). Some of these inhibitors have been used in the treatment of COVID-19 patients to improve survival rates. However, controlling the extent of inflammation with cytokine inhibitors is still a challenge because these molecules are redundant and pleiotropic. Here we review a novel therapeutic approach based on the use of the HSP60-derived Altered Peptide Ligand (APL) designed for RA and repositioned for the treatment of COVID-19 patients with hyperinflammation. HSP60 is a molecular chaperone found in all cells. It is involved in a wide diversity of cellular events including protein folding and trafficking. HSP60 concentration increases during cellular stress, for example inflammation. This protein has a dual role in immunity. Some HSP60-derived soluble epitopes induce inflammation, while others are immunoregulatory. Our HSP60-derived APL decreases the concentration of cytokines and induces the increase of FOXP3+ regulatory T cells (Treg) in various experimental systems. Furthermore, it decreases several cytokines and soluble mediators that are raised in RA, as well as decreases the excessive inflammatory response induced by SARS-CoV-2. This approach can be extended to other inflammatory diseases.

Jusvinza, an anti-inflammatory drug derived from the human heat-shock protein 60, for critically ill COVID-19 patients. An observational study.

This paper presents the results of an observational and retrospective study on the therapeutic effects of Jusvinza, an immunomodulatory peptide with anti-inflammatory properties for critically ill COVID-19 patients. This peptide induces regulatory mechanisms on the immune response in experimental systems and in patients with Rheumatoid Arthritis. Exploratory research in COVID-19 patients revealed that Jusvinza promotes clinical and radiological improvement. The aim of this study is to describe the clinical outcome and variations of several inflammatory biomarkers in a cohort of critically ill COVID-19 patients, divided into two groups during the observational research: one group received Jusvinza and the other did not. Research physicians extracted the patients´ data from their hospital's clinical records. The study analyzed 345 medical records, and 249 records from critically ill patients were included. The data covered the demographic characteristics, vital signs, ventilatory parameters and inflammatory biomarkers. Survival outcome was significantly higher in the group receiving Jusvinza (90.4%) compared to the group without Jusvinza (39.5%). Furthermore, in patients treated with Jusvinza there was a significant improvement in ventilatory parameters and a reduction in inflammation and coagulation biomarkers. Our findings show that Jusvinza could control the extent of inflammation in COVID-19 patients. This study indicates that Jusvinza is a helpful drug for the treatment of diseases characterized by hyperinflammation.

Galectin-1, a novel promising target for outcome prediction and treatment in SCLC.

INTRODUCTION: small-cell lung cancer (SCLC) is one of the most lethal malignancies. Its management is complex due to the lack of biomarkers and limited therapies. Galectin-1 (Gal-1) plays a major role in cancer development and progression. The aim of this study is to assess whether Gal-1 has a predictive role in the disease evolution and its therapeutic potential. MATERIAL AND METHODS: The expression level of Gal-1 was examined by using a public RNA-sequencing (77 SCLC patients) and in-house immunohistochemistry (IHC) performed on biopsies from 81 patients. Survival curves and Cox regression analysis were used to assess the prognostic potential of Gal-1. In addition, a SCLC-PDX model was carried out and treated with either OTX008, an inhibitor of Gal-1, or vehicle to assess the effects of Gal-1 inhibition on this disease in vivo. RESULTS: Galectin-1 gene (LGALS1) expression showed a strong negative correlation with outcome in SCLC patients with advanced disease (p = 0.007). IHC unveiled that overall survival (OS) was significantly lower among extensive-stage SCLC (ES-SCLC) patient group with increased level of Gal-1 and platelet-to-lymphocyte ratio (PLR) (HR=3.07, 95% CI: 1.62, 5.79, p < 0.001). The SCLC-PDX model showed a significant reduction in tumor size (tumor growth inhibition [TGI] index 73%) without side effects. DISCUSSION: in this study, high levels of Gal-1 and PLR were associated with poorer OS in SCLC patients, supporting their utility as clinical prognostic biomarkers. Moreover, the in vivo model suggests the inhibition of Gal-1 as a novel potential therapy for this disease with very poor prognosis.

Design and Biological Assembly of Polyester Beads Displaying Pneumococcal Antigens as Particulate Vaccine.

Streptococcus pneumoniae can cause life-threatening infections mostly in infants, children, and elderly people. Capsular polysaccharide conjugate vaccines provide serotype-dependent protection against S. pneumoniae infections but fail to protect against new emerging serotypes. To overcome these limitations, pneumolysin (Ply), a serotype-independent and conserved protein was selected. As such subunit vaccines lack immunogenicity, we engineered Ply to be attached to self-assembled polyester beads in order to boost immunogenicity. To display Ply at the surface of these polyester beads, it was translationally fused to the N-terminus of the polyhydroxybutyrate (PHB) synthase (PhaC), which mediates PHB bead assembly inside recombinant Escherichia coli. We also chemically conjugated the capsular polysaccharide (CPS) 19F to isolated PHB beads to further assess their antigen carrier properties. CPS conjugated to soluble tetanus toxoid served as control. Balb/c mice immunized with Ply-PhaC beads and 19F-PhaC beads induced specific and higher IgG levels than the respective soluble counterparts. The induced IgG antibodies recognized Ply in whole cell lysates of six different serotypes of S. pneumoniae. Additionally, restimulated splenocytes from animals immunized with Ply-PhaC beads produced a balanced INF-γ/IL-17A profile unlike animals immunized with soluble Ply. The 19F-PhaC beads induced production of antibodies showing high opsonophagocytic titers against the homologous strain, serotype 19F, while CPS 19F only mixed with PhaC beads did not elicit any detectable immune response. This study provided insight into the design of PHB beads as a carrier of proteinaceous antigens and CPS in order to induce immune responses for the prevention of pneumococcal infections.

Bioengineered polyester beads co-displaying protein and carbohydrate-based antigens induce protective immunity against bacterial infection.

The efficacy of protein and carbohydrate antigens as vaccines can be improved via particulate delivery strategies. Here, protein and carbohydrate antigens used in formulations of vaccines against Neisseria menigitidis were displayed on in vivo assembled polyester beads using a combined bioengineering and conjugation approach. An endotoxin-free mutant of Escherichia coli was engineered to produce translational fusions of antigens (Neisseria adhesin A (NadA) and factor H binding protein (fHbp) derived from serogroup B) to the polyhydroxybutyrate synthase (PhaC), in order to intracellularly assemble polyester beads displaying the respective antigens. Purified beads displaying NadA showed enhanced immunogenicity compared to soluble NadA. Both soluble and particulate NadA elicited functional antibodies with bactericidal activity associated with protective immunity. To expand the antigen repertoire and to design a more broadly protective vaccine, NadA-PhaC beads were additionally conjugated to the capsular polysaccharide from serogroup C. Co-delivery of surface displayed NadA and the capsular polysaccharide induced a strong and specific Th1/Th17 mediated immune response associated with functional bactericidal antibodies. Our findings provide the foundation for the design of multivalent antigen-coated polyester beads as suitable carriers for protein and polysaccharide antigens in order to induce protective immunity.

El tratamiento con Jusvinza disminuye la hiperinflamación y la hipercoagulación en pacientes críticos con la COVID-19

RESUMEN Introducción: La infección con el SARS-CoV-2 induce un estado protrombótico en los pacientes, atribuible a la combinación de la respuesta hiperinflamatoria y la hipoxia. En Cuba, se usa el fármaco Jusvinza, basado en un péptido inmunomodulador, para el tratamiento de los pacientes con la COVID-19, que presenten signos y síntomas de hiperinflamación. Objetivos: Describir la evolución clínica y las variaciones de biomarcadores asociados con la inflamación y la coagulación, en un grupo de pacientes críticos con la COVID-19, tratados con Jusvinza, en comparación con un grupo de pacientes que no recibieron tratamiento con este péptido. Métodos: Se incluyeron 40 pacientes críticos con la COVID-19; se dividieron en 2 grupos: 20 pacientes tratados con Jusvinza y 20 no fueron tratados con dicho péptido (grupo control). Las características demográficas, comorbilidades, signos vitales, parámetros respiratorios, biomarcadores de la inflamación y de la coagulación se obtuvieron a partir de las historias clínicas de cada paciente. Resultados: El tratamiento con Jusvinza indujo una mejoría clínica en los pacientes, asociada con la disminución de varios biomarcadores de la inflamación y la coagulación. La sobrevida de los pacientes tratados con Jusvinza fue significativamente superior a la sobrevida de los pacientes no tratados con este péptido. Conclusiones: Jusvinza es capaz de controlar la hiperinflamación y la hipercoagulación en pacientes críticos con la COVID-19.

ABSTRACT Introduction: Infection with SARS-CoV-2 induces a prothrombotic state in patients, by the combination of hyperinflammatory response and hypoxia. In Cuba, the drug called Jusvinza, based on an immunomodulatory peptide, is used for the treatment of patients with COVID-19, who present signs and symptoms of hyperinflammation. Objectives: To describe the clinical course and behavior of various biomarkers associated with the inflammation and coagulation, in a group of critically ill patients with COVID-19 treated with Jusvinza, compared to a group of patients who did not receive treatment with this peptide. Methods: 40 critically ill patients with COVID-19 were included. The patients were divided into 2 groups: 20 patients were treated with Jusvinza and 20 were not treated with this peptide (control group). Demographic characteristics, comorbidities, vital signs, respiratory parameters and inflammation and coagulation biomarkers were obtained from the medical records of each patient. Results: Treatment with Jusvinza induced a clinical improvement in the patients, associated with the decrease of several inflammation and coagulation biomarkers. Patients treated with Jusvinza had a significantly higher survival than patients not treated with this peptide. Conclusions: Jusvinza is able to control hyperinflammation and hypercoagulation in critical ill patients with COVID-19.

Péptido inmunomodulador CIGB-258 para el tratamiento de pacientes graves y críticos con la COVID-19 / An immunomodulatory peptide CIGB-258 for the treatment of critical and severe COVID-19 patients

Introducción: El CIGB-258 es un péptido inmunomodulador con propiedades antiinflamatorias. Objetivos: Establecer la frecuencia de dosis y el tiempo de tratamiento con el péptido CIGB-258, para pacientes críticos con COVID-19. Además, definir los criterios de uso y el esquema terapéutico del péptido, para pacientes graves con COVID-19. Métodos: Se incluyeron 9 pacientes críticos y 3 pacientes graves. Las evaluaciones clínicas, radiológicas y de laboratorio se registraron de acuerdo al protocolo establecido. Se obtuvieron muestras de suero antes y después del tratamiento con la CIGB-258, para la determinación de los biomarcadores de la inflamación. Resultados: Se estableció el protocolo de actuación con el péptido CIGB-258, el cual consiste en la administración intravenosa de 1 mg del péptido cada 12 horas a los pacientes críticos. La dosis debe aumentarse a 2 mg cada 12 horas, para los pacientes que no muestren mejoría clínica y radiológica en 24 horas. Después de la extubación, los pacientes deben recibir 1 mg de CIGB-258 al día, durante otros tres días. Los pacientes graves deben recibir 1 mg de CIGB-258 cada 12 horas, hasta que resuelvan su condición clínica. Conclusiones: CIGB-258 mostró un buen perfil de seguridad. El protocolo de actuación establecido contribuyó a que todos los pacientes críticos se recuperaran de la dificultad respiratoria y fueran extubados. Los pacientes graves mejoraron considerablemente. Los niveles de los biomarcadores asociados con hiperinflamación y las citocinas disminuyeron significativamente durante el tratamiento(AU)

Introduction: CIGB-258 is an immunomodulatory peptide with anti-inflammatory properties. Objectives: To establish the therapeutic schedule with CIGB-258 peptide for COVID-19 critically ill patients. In addition, to define the criteria for use and schedule of this peptide for COVID-19 seriously ill patients. Methods: 9 critically ill patients and 3 seriously ill patients were included in this study. Clinical, radiological and laboratory evaluations were recorded according to the established protocol. Serum samples were obtained before and after treatment with CIGB-258, for the determination of the inflammation biomarkers. Results: The therapeutic protocol was established with the CIGB-258 peptide, which consists of intravenous administration of 1 mg of peptide every 12 hours for critically ill patients. The dose should be increased to 2 mg every 12 hours, for patients who do not show clinical and radiological improvement in 24 hours. After extubation, patients should receive 1 mg of CIGB-258 daily, for another three days. Seriously ill patients should receive 1 mg of CIGB-258 every 12 hours, until their clinical condition resolves. Conclusions: CIGB-258 showed an excellent safety profile. The established therapeutic protocol contributed to all critically ill patients recovering from respiratory distress and being extubated. Seriously ill patients improved considerably. The levels of the biomarkers associated with hyperinflammation and cytokines decreased significantly during treatment(AU)

Reactogenicity of Bordetella pertussis vaccines formulations using aluminum adjuvants in Sprague Dawley rats / Reactogenicidad de formulaciones de vacunas de Bordetella pertussis utilizando adyuvantes de aluminio en ratas Sprague Dawley

Combined vaccines for childhood are a strategy in the prevention of several diseases. These can maximize protection and decrease immunization schedules in children. New candidates are getting closer to being able to meet these needs, but they raise numerous strategic questions related to formulation and regulatory aspects. In addition to being immunogenic and protective must have low reactogenicity when combined with other antigens. Adjuvants are important components in achieving these combinations. Therefore, a reactogenicity study was designed for two Bordetella pertussis formulations containing hydroxide or aluminum phosphate in Sprague Dawley rats. Both formulations dose were administered in 0.2 mL intramuscularly. Clinical evaluations, body weight, water consumption, food, temperature, muscle volume, dermal irritability and pathological studies with special interest at the inoculation site were carried out. Only differences in body temperature and muscle volume were found with a slight increase in values with return to normal. The macroscopic study showed lesions at the site of inoculation, consid­ered characteristics of aluminum adjuvants, such as granulomatous abscesses and the increase in regional lymph nodes near the inoculation site. As conclusion, there are no differences between the formulations of B. pertussis with hydroxide or aluminum phosphate resulted in low reactogenicity.

Las vacunas combinadas resultan una estrategia importante en la obtención de vacunas múltiples para la infancia y el uso de adyuvantes es un componente de gran valor en lograr estas combinaciones, además de ser inmunogénicas y protectoras deben tener baja reactogenicidad, cuando se combinan con diferentes antígenos. Por esta razón, se diseñó un estudio de reactogenicidad a dos formulaciones que contenían hidróxido y fosfato de aluminio con antígenos de Bordetella pertussis en ratas Sprague Dawley. Se administró a cada grupo de ensayo una dosis correspondiente de ambas formulaciones en 0,2 mL por vía intramuscular. Se realizaron observaciones clínicas, comportamiento del peso corporal, consumo de agua, alimentos, temperatura corporal, volumen muscular, irritabilidad dérmica y estudios anatomopatológicos macroscópicos, con especial interés en el sitio de inoculación. No se observaron síntomas, ni muertes en los animales durante el estudio. Tampoco se encontraron diferencias entre los grupos experimentales en cuanto al peso corporal, el consumo de agua y de alimentos; los estudios de temperatura corporal y volumetría muscular evidenciaron un ligero incremento en los valores, los cuales involucionaron rápidamente a la normalidad. En el estudio anatomopatológico macroscópico se observaron lesiones a nivel del punto de inoculación, consideradas propias de los adyuvantes que contienen aluminio, tales como formaciones abscedadas de tipo granulomatosas y el aumento de los ganglios linfáticos regionales cercanos al punto de inoculación. Se concluye que las formulaciones en hidróxido y fosfato de aluminio con antígenos de B.pertussis resultaron ser de baja reactogenicidad.

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)

Estandarización de un ELISA para la cuantificación de anticuerpos IgG contra vesículas de membrana externa de Salmonella Paratyphi A / Standardization of an ELISA for the quantification of IgG antibodies against outer membrane vesicle of Salmonella Paratyphi A

Salmonella Paratyphi A es un patógeno exclusivo de humanos, siendo la segunda causa más común de fiebre entérica en el sudeste asiático. Recientemente la incidencia en este continente ha aumentado, desplazando a Salmonella entérica serotipo Typhi como la primera causa de fiebre entérica. En la actualidad no existen vacunas licenciadas contra S. Paratyphi A. El Instituto Finlay de Vacunas se encuentra trabajando en la obtención de un candidato vacunal basado en vesículas de membrana externa (VME) contra S. Paratyphi A, por lo que se hizo necesario contar con una técnica para la evaluación de su inmunogenicidad. El objetivo de este trabajo fue la estandarización de un ELISA para la cuantificación de anticuerpos IgG contra VME de S. Paratyphi A. Para ello, se determinaron las mejores condiciones de este ensayo en cuanto a concentración óptima de recubrimiento y dilución de trabajo del conjugado. Además, se definió el intervalo y linealidad de la curva, la precisión intra e interensayo, la especificidad y el límite de detección. La curva de calibración se generó con un suero estándar interno y presentó un buen ajuste lineal con un R² =0.98. Los coeficientes de variación en los ensayos de precisión intra e interensayo estuvieron en los intervalos establecidos para cada uno (=10 por ciento, =20 por ciento respectivamente). Los resultados obtenidos avalan el empleo de este ELISA cuantitativo para la evaluación de la inmunogenicidad de formulaciones de VME de S. Paratyphi A en fases de investigación y desarrollo(AU)

Salmonella Paratyphi A, is an exclusive pathogen of humans, being the second most common cause of enteric fever in Southeast Asia. Recently the incidence of this disease in this continent has increased, displacing Salmonella enterica serotype Typhi as the first cause of enteric fever. Currently there are no vaccines licensed against S. Paratyphi A. The Finlay Institute of Vaccines is working on obtaining a vaccine candidate based on outer membrane vesicles (VME) against S. Paratyphi A, so it became necessary to develop a technique for the evaluation of its immunogenicity. The objective of this work was the standardization of an ELISA for the quantification of IgG antibodies against VME of S. Paratyphi A. The best conditions of this assay were determined in terms of optimum concentration of coating and working dilution of the conjugate. In addition, the interval and linearity of the curve, the intra- and inter-assay precision, the specificity and the limit of detection were defined. The calibration curve was generated with an internal standard serum and presented a good linear fit with an R² =0.98. The coefficients of variation in the intra- and interassay precision tests were in the intervals established for each one (=10 percent, =20 percent respectively). The results obtained support the use of this quantitative ELISA for the evaluation of the immunogenicity of VME formulations of S. Paratyphi A in research and development phases(AU)