A glycoprotein E gene-deleted bovine alphaherpesvirus 1 strain is attenuated and immunogenic for calves with passive immunity upon intranasal immunization / Cepa de alfaherpesvírus bovino 1 com deleção do gene da glicoproteína E é atenuada e imunogênica para bezerros com imunidade passiva após imunização intranasal

ABSTRACT: Vaccination has been used to prevent the losses associated with Bovine alphaherpesvirus 1 (BoHV-1) infection but passively acquired antibodies may compromise vaccine efficacy. Intranasal immunization (IN) of calves with modified live viral BoHV-1 vaccines has proven to overcome the acquired passive antibodies and confer adequate protection. Herein, we evaluated the safety and immunogenicity of a glycoprotein E-deleted Brazilian BoHV-1 strain (BoHV-1gEΔ) for IN immunization of calves. Ten 1-to-2 months-old calves with virus-neutralizing titers (VN) ranging from 2-64 were immunized IN with viable BoHV-1gEΔ (107.1 TCID50) and four remained as unvaccinated controls (VN titers 8-32). After IN immunization, calves presented a transient (2-6 days) mild nasal secretion and shed the vaccine virus in nasal secretions in low titers (<102.6TCID50/mL) for 4-8 days. Interestingly, the vaccinated calves did not show an increase in VN titers after vaccination. Rather, they presented a gradual reduction in serum VN antibodies in the following weeks - similarly to unvaccinated controls. Upon IN challenge with a virulent heterologous BoHV-1 strain at day 55 post-immunization (107.63TCID50), vaccinated calves shed significantly less virus from day 6 post-challenge onwards (p < 0.07) and for a shorter period of time than the controls (p < 0.0024). Importantly, both the duration and intensity of clinical signs were reduced in vaccinated animals. In addition, vaccinated calves showed an abrupt raise in VN titers post-challenge, indicating adequate immunological priming by vaccination. In summary, immunization of calves harboring passive antibodies with BoHV-1gEΔ by the IN route was able to prime the immunity to afford partial virological and clinical protection upon challenge.

RESUMO: A vacinação tem sido usada para prevenir perdas associadas à infecção pelo alfaherpesvírus bovino 1 (BoHV-1), embora anticorpos adquiridos passivamente possam comprometer a eficácia das vacinas. A imunização intranasal (IN) de bezerros com vacinas de BoHV-1 vivas modificadas pode contornar o obstáculo relacionado à presença de anticorpos adquiridos passivamente, conferindo proteção aos animais vacinados. Nesse contexto, avaliou-se a segurança e imunogenicidade de uma cepa brasileira de BoHV-1 com deleção no gene da glicoproteína E (BoHV-1gEΔ) na imunização IN de bezerros. Dez bezerros, de um a dois meses de idade e com títulos neutralizantes (VN) variando de 2-64, foram inoculados IN com BoHV-1gEΔ (107,1TCID50), e quatro permaneceram como controles não vacinados (títulos de VN 8-32). Após a instilação IN, os bezerros apresentaram secreção nasal transitória leve (2-6 dias) e excretaram o vírus vacinal nas secreções nasais em baixos títulos (<102,6TCID50/mL) por 4-8 dias. Interessantemente, os bezerros vacinados não apresentaram aumento nos títulos de anticorpos neutralizantes após a vacinação. Em vez disso, eles apresentaram uma redução gradual nos anticorpos neutralizantes séricos nas semanas seguintes - semelhante aos controles não vacinados. Após o desafio IN com uma cepa BoHV-1 virulenta heteróloga no dia 55 pós-imunização (107,63TCID50), os bezerros vacinados excretaram o vírus em títulos menores a partir do sexto dia pós-desafio (p < 0,07) e por um período de tempo menor do que o observado nos controles (p < 0,0024). É importante notar que tanto a duração quanto a intensidade dos sinais clínicos foram reduzidas nos animais vacinados. Além disso, os bezerros vacinados apresentaram um aumento abrupto nos títulos neutralizantes após o desafio, indicando uma imunização adequada por BoHV-1gEΔ. Em resumo, a imunização IN de bezerros com anticorpos passivos com a cepa BoHV-1gEΔ foi capaz de estimular a imunidade, proporcionando proteção virológica e clínica parciais após o desafio.

A glycoprotein E gene-deleted bovine alphaherpesvirus 1 strain is attenuated and immunogenic for calves with passive immunity upon intranasal immunization / Cepa de alfaherpesvírus bovino 1 com deleção do gene da glicoproteína E é atenuada e imunogênica para bezerros com imunidade passiva após imunização intranasal

Vaccination has been used to prevent the losses associated with Bovine alphaherpesvirus 1 (BoHV-1) infection but passively acquired antibodies may compromise vaccine efficacy. Intranasal immunization (IN) of calves with modified live viral BoHV-1 vaccines has proven to overcome the acquired passive antibodies and confer adequate protection. Herein, we evaluated the safety and immunogenicity of a glycoprotein E-deleted Brazilian BoHV-1 strain (BoHV-1gEΔ) for IN immunization of calves. Ten 1-to-2 months-old calves with virus-neutralizing titers (VN) ranging from 2-64 were immunized IN with viable BoHV-1gEΔ (107.1 TCID50) and four remained as unvaccinated controls (VN titers 8-32). After IN immunization, calves presented a transient (2-6 days) mild nasal secretion and shed the vaccine virus in nasal secretions in low titers (<102.6TCID50/mL) for 4-8 days. Interestingly, the vaccinated calves did not show an increase in VN titers after vaccination. Rather, they presented a gradual reduction in serum VN antibodies in the following weeks - similarly to unvaccinated controls. Upon IN challenge with a virulent heterologous BoHV-1 strain at day 55 post-immunization (107.63TCID50), vaccinated calves shed significantly less virus from day 6 post-challenge onwards (p < 0.07) and for a shorter period of time than the controls (p < 0.0024). Importantly, both the duration and intensity of clinical signs were reduced in vaccinated animals. In addition, vaccinated calves showed an abrupt raise in VN titers post-challenge, indicating adequate immunological priming by vaccination. In summary, immunization of calves harboring passive antibodies with BoHV-1gEΔ by the IN route was able to prime the immunity to afford partial virological and clinical protection upon challenge.

A vacinação tem sido usada para prevenir perdas associadas à infecção pelo alfaherpesvírus bovino 1 (BoHV-1), embora anticorpos adquiridos passivamente possam comprometer a eficácia das vacinas. A imunização intranasal (IN) de bezerros com vacinas de BoHV-1 vivas modificadas pode contornar o obstáculo relacionado à presença de anticorpos adquiridos passivamente, conferindo proteção aos animais vacinados. Nesse contexto, avaliou-se a segurança e imunogenicidade de uma cepa brasileira de BoHV-1 com deleção no gene da glicoproteína E (BoHV-1gEΔ) na imunização IN de bezerros. Dez bezerros, de um a dois meses de idade e com títulos neutralizantes (VN) variando de 2-64, foram inoculados IN com BoHV-1gEΔ (107,1TCID50), e quatro permaneceram como controles não vacinados (títulos de VN 8-32). Após a instilação IN, os bezerros apresentaram secreção nasal transitória leve (2-6 dias) e excretaram o vírus vacinal nas secreções nasais em baixos títulos (<102,6TCID50/mL) por 4-8 dias. Interessantemente, os bezerros vacinados não apresentaram aumento nos títulos de anticorpos neutralizantes após a vacinação. Em vez disso, eles apresentaram uma redução gradual nos anticorpos neutralizantes séricos nas semanas seguintes - semelhante aos controles não vacinados. Após o desafio IN com uma cepa BoHV-1 virulenta heteróloga no dia 55 pós-imunização (107,63TCID50), os bezerros vacinados excretaram o vírus em títulos menores a partir do sexto dia pós-desafio (p < 0,07) e por um período de tempo menor do que o observado nos controles (p < 0,0024). É importante notar que tanto a duração quanto a intensidade dos sinais clínicos foram reduzidas nos animais vacinados. Além disso, os bezerros vacinados apresentaram um aumento abrupto nos títulos neutralizantes após o desafio, indicando uma imunização adequada por BoHV-1gEΔ. Em resumo, a imunização IN de bezerros com anticorpos passivos com a cepa BoHV-1gEΔ foi capaz de estimular a imunidade, proporcionando proteção virológica e clínica parciais após o desafio.

Immunogenicity of a recombinant hemagglutinin neuraminidase-Porcine rubulavirus produced by Escherichia coli of Porcine rubulavirus gives protective immunity of litter after challenge.

Porcine rubulavirus (PRV) is a contagious virus that affects the Mexican swine industry. This work aimed to evaluate the immunogenicity of an recombinant hemagglutinin neuraminidase-Porcine rubulavirus (rHN-PorPV) candidate vaccine on pregnant sows, and the protective efficacy afforded to their 7-day-old suckling piglets against PRV lethal challenge. Three sows were immunized with rHN-PorPV formulated with immune-stimulating complex (ISCOMs) and two sows with rHN-PorPV protein alone as well as a mock-immunized pregnant sow (negative control). Quantitative ELISA detected a high concentration of anti-rHN-PorPV Immunoglobulin G (IgG) antibodies in sow sera after the second dose of vaccine administered on day 14 until farrowing, showing viral-neutralizing and cross-neutralization activity against different variants of PRV. Sera samples from piglets of immunized sows (with or without adjuvant), showed high concentrations of IgG antibodies. As expected, piglets from the negative control sow (n=5), exhibited severe signs of disease and 100% of mortality after PRV challenge study. Conversely, 75% and 87.5% of the piglets born from the rHN-PorPV and the rHN-PorPV-ISCOMs-immunized sows (n=8), survived, respectively, showing milder PRV clinical signs. Our data indicate that rHN-PorPV candidate vaccine produced in Escherichia coli induces efficient humoral response in pregnant sows and that the maternally derived immunity provides high protection to suckling piglets against PRV lethal challenge.

Development of a Salmonella-based oral vaccine to control intestinal colonization of Shiga-toxin-producing Escherichia coli (STEC) in animals.

Shiga-toxin-producing Escherichia coli (STEC) is an important food-borne pathogen that causes hemorrhagic colitis and hemolytic uremic syndrome (HUS) in humans. Since no vaccines are available and antibiotic treatment is not recommended because promotes the appearance of HUS symptoms, the control of STEC intestinal colonization in cows, which is an important environmental reservoir, is crucial to control this zoonosis. Here, we evaluated the adaptation of an attenuated strain of Salmonella enterica serovar Typhimurium (ΔaroA mutant) as a vaccine platform for preventing STEC intestinal colonization that was studied in a mouse model. A chimeric antigen formed by the combination of the STEC peptides EspA36-192, Intimin653-935, Tir 258-361, and H7 flagellin352-374 (EITH7) was constructed and fused to the ß-lactamase signal sequence (bla SS) that drives the secretion of the chimeric antigen to the bacterial periplasmic space. Oral administration of ΔaroA-ST(EITH7) in a regime of three doses of immunization elicited both mucosal and humoral immune responses that protect mice against a STEC oral experimental infection. Remarkably, serum antibodies not only were able to bind the chimeric antigen EITH7 but also to block actin pedestal formation triggered by the type three secretion system (T3SS) in Enteropathogenic Escherichia coli (EPEC). Furthermore, a single-dose protocol was evaluated, and mice were orally immunized with ΔaroA-ST(EITH7). Interestingly, although with this protocol of immunization only fecal α-EITH7 IgA antibodies were induced and no α-EITH7 in sera were detected, mice were able to efficiently control an oral experimental infection with 1010 STEC (strain Escherichia coli O157:H7), suggesting that mucosal immune response was necessary and sufficient to control STEC intestinal colonization.

Effectiveness of a New Recombinant antiGnRH Vaccine for Immunocastration in Bulls.

Castration by surgical techniques is common in livestock; however, post-surgery complications and concerns for animal wellbeing have created a need for new non-invasive alternatives. The objective of this study was to evaluate immunocastration in bulls using antigen GnRX G/Q; a recombinant peptide proved to be effective in laboratory and companion animals. A nine-month trial with 80 9-month-old Normand x Hereford bulls, kept in a pastured system, was conducted. The herd was divided in half with 40 bulls surgically castrated (SC) and 40 castrated by immunization against GnRH (IC). The antigen was injected on days 0 and 40 of the experiment. After the second dose, the IC group had elevated GnRH antibodies and decreased testosterone levels (below 5 ng/mL) that were maintained for 23 weeks. At slaughter on day 190, the immunocastrated group obtained a higher weight, hot carcass, and dressing percentage than the SC group. There was no difference in pH, color of meat, fat coverage, cooking loss, or tenderness between groups. The bulls showed no inflammatory reaction at the injection site or adverse side effects from the vaccine. Our results demonstrate that immunocastration with GnRX G/Q is an efficient and safe alternative to surgical castration in livestock. Additional work evaluating antigen effects over a longer period is needed to validate commercial viability.

Evaluation of transfer of maternal immunity to the offspring of broiler breeders vaccinated with a candidate recombinant vaccine against Salmonella Enteritidis.

Salmonella Enteritidis (SE) is a major cause of foodborne diseases in humans being frequently related to the consumption of poultry products. Therefore, guaranteeing early immunity to chicks is an important tool to prevent the colonization and infection by this pathogen. The present study evaluated the effectiveness of a candidate recombinant vaccine against SE. Thirty female and five male broiler breeders that were ten weeks-old were divided into 3 groups: unvaccinated (UV), vaccinated with recombinant vaccine candidate (VAC) and vaccinated with commercial bacterin (BAC). Samples of serum and embryonated egg were collected at seven and twelve weeks after the booster dose to quantify the transfer rate of IgY to egg yolks and offspring. Subsequently, forty day-old offspring were divided into two groups (UV and VAC) and challenged on the following day with 107 CFU/chick of SE. Samples of serum, intestine, liver, and cecal content were harvested. Throughout the experiment period, significantly higher levels of IgY were observed in the egg yolk and also in the serum of broiler breeders and offspring of the VAC group in comparison to the UV group. In addition, increased transfer rates of IgY were observed in the VAC group when compared to the BAC group. Furthermore, higher villus-crypt ratios were found out in duodenum, jejunum and ileum at four days post-infection in the offspring from the VAC group. A high challenge dose of SE (107 CFU per chick) was used and despite the stronger humoral immune response provoked by the candidate vaccine, there were no statistical differences in the recovery of viable SE cells from the offspring cecal contents. Therefore, the effect of vaccination to improve intestinal quality may affect the development of the chickens and consequently increase the resistance to lower SE challenge doses.

Establishment of a production process for a novel vaccine candidate against Lawsonia intracellularis

BACKGROUND: Lawsonia intracellularis remains a problem for the swine industry worldwide. Previously, we designed and obtained a vaccine candidate against this pathogen based on the chimeric proteins: OMP1c, OMP2c, and INVASc. These proteins formed inclusion bodies when expressed in E. coli, which induced humoral and cellular immune responses in vaccinated pigs. Also, protection was demonstrated after the challenge. In this study, we established a production process to increase the yields of the three antigens as a vaccine candidate. RESULTS: Batch and fed-batch fermentations were evaluated in different culture conditions using a 2 L bioreactor. A fed-batch culture with a modified Terrific broth medium containing glucose instead of glycerol, and induced with 0.75 mM IPTG at 8 h of culture (11 g/L of biomass) raised the volumetric yield to 627.1 mg/L. Under these culture conditions, plasmid-bearing cells increased by 10% at the induction time. High efficiency in cell disruption was obtained at passage six using a high-pressure homogenizer and a bead mill. The total antigen recovery was 64% (400 mg/L), with a purity degree of 70%. The antigens retained their immunogenicity in pigs, inducing high antibody titers. CONCLUSIONS: Considering that the antigen production process allowed an increment of more than 70-fold, this methodology constitutes a crucial step in the production of this vaccine candidate against L. intracellularis.

Treatment Following Erythema Multiforme in the Oral Mucosa After qHPV Vaccine with Low-Level Laser Therapy: case Report / Tratamiento del Eritema Multiforme en la Mucosa Oral Después de la Vacuna Contra el qHPV con Terapia con Láser de Baja Potencia: reporte de un Caso

Erythema multiforme (EM) is a mucocutaneous condition of uncertain etiology, although the hypersensitivity reaction to a wide variety of agents may be related to the onset of the lesions. In about half of the affected patients it is possible to identify a previous infection. This article aims to report a case of EM in the oralmucosa after qHPV vaccine (Gardasil®), to highlight the diagnostic process and the proposed treatment. Female patient, 16 years old, after 10 days of receiving the first dose of the qHPV vaccine. On physical examination, she presented multiple ulcers and hemorrhagic crusts to the touch, based on the clinical picture and the history of the disease, a diagnostic hypothesis was EM. Low-level laser therapy (LLLT) was chosen as an alternative treatment, since the exercises applied were not successful. The patient was followed up, reported decreased pain and burn and, after one year of treatment, there was no recurrence of the lesions. Laser treatment showed an effective treatment alternative, in addition to the low cost and ease of application.

El eritema multiforme (EM) es una afección mucocutánea de etiología incierta, aunque la reacción de hipersensibilidad a una amplia variedad de agentes puede estar relacionada con la aparición de las lesiones. En aproximadamente la mitad de los pacientes afectados es posible identificar una infección previa. Este artículo tiene como objetivo informar un caso de EM en la mucosa oral después de la vacuna qHPV (Gardasil®), para resaltar el proceso de diagnóstico y el tratamiento propuesto. Paciente de 16 años, después de 10 días de recibir la primera dosis de la vacuna qHPV. En el examen físico, presentó múltiples úlceras y costras hemorrágicas al tacto, según el cuadro clínico y la historia de la enfermedad, una hipótesis diagnóstica fue EM. La terapia con láser de baja potencia (TLBP) se eligió como un tratamiento alternativo, ya que los ejercicios aplicados no tuvieron éxito. La paciente fue seguida, informó disminución del dolor y las quemaduras y, después de un año de tratamiento, no hubo recurrencia de las lesiones. El tratamiento con láser mostró una alternativa de tratamiento efectivo, además del bajo costo y la facilidad de aplicación.

Immunogenicity of a Recombinant Gonadotropin-releasing Hormone Associated to the B Subunit of Escherichia coli Heat-labile Enterotoxin Expressed in Pichia pastoris and Escherichia coli Platforms

Abstract Gonadotropin-releasing hormone (GnRH) is one of the main targets for the development of immunocontraceptives vaccines. The aim of this study was to clone and express the recombinant GnRH fused to the B subunit of Escherichia coli heat-labile enterotoxin (LTB) molecule in Pichia pastoris and Escherichia coli platforms and evaluate their immunogenicity in mice. P. pastoris (pGnRH/LTB) and E. coli (eGnRH/LTB) platforms were able to express GnRH/LTB expected band with ~ 21 kDa. Both constructions were immunogenic in mice. Similar IgG kinetics was observed for both construction when it was used as ELISA antigen respectively, showing significant (p<0.05) IgG levels 5-fold higher than a commercial vaccine and 14-fold higher than the controls. The histological effects of pGnRH/LTB as well as eGnRH/LTB proteins demonstrated a significant effect on the gonads, characterized by atrophy of seminiferous tubules, absence of spermatogenesis and reduction of Leydig cells. Both constructions were able to induce antibodies that block the hormone effect, suggesting the potential of GnRH/LTB, independently of the P. pastoris or E. coli platform used, as a vaccine candidate for immunocontraception.

Vacuna del papilomavirus en el Perú / Papillomavirus vaccine in Peru

RESUMEN El cáncer de cuello uterino es un problema de salud pública. La vacuna contra el virus del papiloma humano (VPH) protege contra la infección por el VPH. Ha mostrado ser efectiva para prevenir lesiones premalignas y cáncer de cérvix, así como lesiones de la vulva, vagina, canal anal, pene y orofaringe. Forma parte del calendario nacional de vacunación, es costo efectiva en la introducción de la estrategia nacional de vacunación y es la herramienta ideal ante sistemas de salud donde la prevención secundaria no ha dado resultado a lo largo del tiempo. La implementación del programa de vacunación en Perú se inició en el 2011. Actualmente, la indicación de la vacunación es con la vacuna tetravalente a niñas del 5° grado de primaria de los colegios públicos y privados, en 2 dosis a los 0 y 6 meses. En el 2019, la cobertura fue de 87% (234 535 niñas) para la primera dosis y 78% (211 339) para la segunda dosis.

ABSTRACT Cervical cancer is a public health concern. The human papillomavirus (HPV) vaccine protects against infection with HPV. The vaccine has been shown to be effective in preventing premalignant lesions and cervical cancer, as well as lesions of the vulva, vagina, anal canal, penis, and oropharynx. It has also proven to be cost effective and supports the idea of introducing a national vaccination strategy. The HPV vaccine could be the ideal tool for health systems where secondary prevention has not been successful over time. The implementation of the vaccination program in Peru began in 2011. Currently, in Peru, the indication for vaccination is with the quadrivalent vaccines for 5th grade girls from public and private schools. It is administered in 2 doses, 0-6 months. In 2019, coverage in Peru was 87% (234 535 girls) for the first dose and 78% (211 339 girls) for the second dose.

Short communication: a modified Vaccinia virus Ankara-based Porcine circovirus 2 vaccine elicits strong antibody response upon prime-boost homologous immunization in a preclinical model.

Porcine circovirus 2 (PCV2) infections are related to a number of syndromes and clinical manifestations, generally known as Porcine circovirus-associated diseases, which are related to losses in the swine industry. There are commercially available vaccines and new vaccines being tested, however, persistency of the PCV2 as an important pig pathogen, and the growing number of affected farms in different countries have suggested that there is room for vaccine improvement. In this study, we describe the construction and testing of a recombinant live vaccine based on a modified Vaccinia virus Ankara (MVA) vector expressing the PCV2b capsid protein (CAP). Using a two-dose homologous vaccination regimen, in mice, we demonstrated that the vaccine induced high titers of anti-PCV2 antibodies. The vaccine is stable upon lyophilization, and, together with the good immunogenicity potential observed, the results support further evaluation of the MVA-CAP vaccine in the target species.

Protective efficacy of recombinant bacterin vaccine against botulism in cattle.

Botulism is a paralytic disease caused by the intoxication of neurotoxins produced by Clostridium botulinum. Among the seven immunologically distinct serotypes of neurotoxins (BoNTs A - G), serotypes C and D, or a chimeric fusion termed C/D or D/C, are responsible for animal botulism. The most effective way to prevent botulism in cattle is through vaccination; however, the commercially available vaccines produced by detoxification of native neurotoxins are time-consuming and hazardous. To overcome these drawbacks, a non-toxic recombinant vaccine was developed as an alternative. In this study, the recombinant protein vaccine was produced using an Escherichia coli cell-based system. The formaldehyde-inactivated E. coli is able to induce 7.45 ± 1.77 and 6.6 ± 1.28 IU/mL neutralizing mean titers against BoNTs C and D in cattle, respectively, determined by mouse neutralization bioassay, and was deemed protective by the Brazilian legislation. Moreover, when the levels of anti-BoNT/C and D were compared with those achieved by the recombinant purified vaccines, no significant statistical difference was observed. Cattle vaccinated with the commercial vaccine developed 1.33 and 3.33 IU/mL neutralizing mean titers against BoNT serotypes C and D, respectively. To the best of our knowledge, this study is the first report on recombinant E. coli bacterin vaccine against botulism. The vaccine was safe and effective in generating protective antibodies and, thus, represents an industry-friendly alternative for the prevention of cattle botulism.

Vaccination against babesiosis using recombinant GPI-anchored proteins.

The increase in human babesiosis is of major concern to health authorities. In the USA, most of these cases are due to infections with Babesia microti, whereas in Europe B. divergens is the major cause of clinical disease in humans. Here we review the immunological and biological literature of glycosylphosphatidylinositol (GPI)-anchored merozoite proteins of human Babesia parasites with emphasis on their role in immunity, and provide some new bioinformatical information on B. microti GPI-Anchored Proteins (GPI-AP). Cattle can be vaccinated with soluble parasite antigens (SPA) of Babesia divergens that are released by the parasite during proliferation. The major component in SPA preparations appeared to be a 37 kDa merozoite surface protein that is anchored in the merozoite membrane by a GPI anchor. Animals could be protected by vaccination with the recombinant 37 kDa protein expressed in Escherichia coli, provided the protein had a hydrophobic terminal sequence. Based on this knowledge, a recombinant vaccine was developed against Babesia canis infection in dogs, successfully. In order to identify similar GPI-AP in B. microti, the genome was analysed. Here it is shown that B. microti encodes all proteins necessary for GPI assembly and its subsequent protein transfer. In addition, in total 21 genes encoding for GPI-AP were detected, some of which reacted particularly strongly with sera from B. microti-infected human patients. Reactivity of antibodies with GPI-anchored merozoite proteins appears to be dependent on the structural conformation of the molecule. It is suggested that the three-dimensional structure of the protein that is anchored in the membrane is different from that of the protein that has been shed from the merozoite surface. The significance of this protein's dynamics in parasite biology and immune evasion is discussed. Finally, we discuss developments in tick and Babesia vaccine research, and the role such vaccines could play in the control of human babesiosis.

Recombinant BCG strains expressing chimeric proteins derived from Leptospira protect hamsters against leptospirosis.

Leptospirosis is a zoonosis that is responsible for one million human cases per year. Fusing multiple immunogenic antigens represents a promising approach to delivering an effective vaccine against leptospirosis. Mycobacterium bovis bacillus Calmette-Guérin (BCG) is a potential vaccine vector due to its adjuvant properties and safety. Two chimeric genes based on genic sequences of ligANI, ligBrep, lipL32, and lemA, were individually cloned into five BioBrick vectors with different promoters (pAN, Hsp60, 18 kDa, Ag85B and Ag85B plus signal sequence) for antigen expression in BCG. Groups of ten hamsters were vaccinated with recombinant BCG (rBCG) strains in two doses of 106 CFU and challenged with 5 × LD50 of L. interrogans serovar Copenhageni. All rBCG vaccines expressing chimera 1, based on antigens LipL32, LigANI, and LemA, under the control of any promoter, protected 80-100% of the hamsters from challenge (P < 0.05) and four of them also protected from renal carrier status; for chimera 2, based on LigANI and LigBrep antigens, the only vaccine that afforded survival rates statistically different from the control was the vaccine that incorporated the pAN promoter (60% of survival). A single vaccine dose was sufficient to induce significant IgG levels by all vaccine compositions evaluated; however, humoral response was not related to protection. These findings suggest that the combination of potential vaccine candidates in chimeric antigens and the use of BCG as a live vector are promising strategies by which it is possible to obtain an effective and sterilizing vaccine against leptospirosis.

Bacillus toyonensis improves immune response in the mice vaccinated with recombinant antigen of bovine herpesvirus type 5.

Probiotics modulate the immune response and can increase the effectiveness of vaccines. Bacillus toyonensis is widely used as a probiotic in animal feed. The aim of this study was to assess the effects of B. toyonensis administration on the immune response to an experimental recombinant vaccine against bovine herpesvirus type 5 (BoHV-5) in mice. Mice were vaccinated with BoHV-5 recombinant glycoprotein D and supplemented with the probiotic B. toyonensis in two regimes: one group received the probiotic only during seven days prior to the initial vaccination while the second group was given the probiotic throughout the experimental period of seven weeks. Animals supplemented with probiotic B. toyonensis in two regimes showed an increase in total immunoglobulin (Ig)G, IgG1 and IgG2a levels in serum, in addition to higher titres of antibodies capable of neutralising the BoHV-5 virus than non-supplemented animals (P<0.05). Splenocytes from the supplemented mice had higher mRNA transcription levels of cytokines interleukin (IL)-4 and IL-12. These results show that the use of this probiotic may significantly contribute to the response elicited by recombinant vaccines, especially those that rely on increasing antibody and cell-mediated immune responses for efficacy. Further, the data support an immunomodulatory effect for probiotic B. toyonensis and imply that enhance effect on the immune response against a BoHV-5 recombinant vaccine in mice.

Immunization with a nontoxic naturally occurring Clostridium perfringens alpha toxin induces neutralizing antibodies in rabbits.

Clostridium perfringens alpha toxin, encoded by plc gene, has been implicated in gas gangrene, a life threatening infection. Vaccination is considered one of the best solutions against Clostridium infections. Although studies have identified many low quality clostridial vaccines, the use of recombinant proteins has been considered a promising alternative. Previously, a naturally occurring alpha toxin isoform (αAV1b) was identified with a mutation at residue 11 (His/Tyr), which can affect its enzymatic activity. The aim of the present study was to evaluate whether the mutation in the αAV1b isoform could result in an inactive toxin and was able to induce protection against the native alpha toxin. We used recombinant protein techniques to determine whether this mutation in αAV1b could result in an inactive toxin compared to the active isoform, αZ23. Rabbits were immunized with the recombinant toxins (αAV1b and αZ23) and with native alpha toxin. αAV1b showed no enzymatic and hemolytic activities. ELISA titration assays showed a high titer of both anti-recombinant toxin (anti-rec-αAV1b and anti-rec-αZ23) antibodies against the native alpha toxin. The alpha antitoxin titer detected in the rabbits' serum pool was 24.0 IU/mL for both recombinant toxins. These results demonstrate that the inactive naturally mutated αAV1b is able to induce an immune response, and suggest it can be considered as a target for the development of a commercial vaccine against C. perfringens alpha toxin.

HPV vacina: conhecer e aceitar para assegurar a eficácia / HPV vaccine: knowledge and acceptance to ensure effectiveness

The new Vaccine technologies against transmissible and non-transmissible diseases, such as cancer, have had an impact on international public health. The human papillomavirus (HPV) vaccine is used on a large scale in immunization programs in more than 58 countries, with resultant efficacy and safety for precursor lesions of cervical cancer, in addition to anogenital lesions. After the introduction of quadrivalent HPV vaccine (6,11,16 and 18) in Brazil in 2014, monitoring the vaccination coverage and the development of HPV prevalence incidence of cervical abnormalities and precancerous lesions must be observed, as well as morbidity and mortality trends from in situ and invasive cancer. Encouraging information, counseling and continuing education is recommended as a strategy to broaden vaccine acceptance in order to sediment its implementation and ensure effectiveness in reducing new cases of cervical cancer in the future.

As novas tecnologias em vacina contra doenças transmissíveis e não transmissíveis como o câncer, tiveram impacto na saúde pública internacional, especificamente a vacina para o papiloma vírus humano (HPV) utilizada em larga escala nos programas de imunização em mais de 58 países, com resultados de eficácia e segurança para lesões precursoras do câncer de colo do útero além de lesões anogenitais. Após a introdução em território Nacional da vacina quadrivalente para o HPV (6,11,16 e 18) desde 2014, ressalta-se a importância do monitoramento da cobertura vacinal e o desenvolvimento de estudos de prevalência de HPV em logo prazo, de incidência de anormalidades cervicais e lesões pré-cancerosas bem como de tendência de morbimortalidade por câncer in situ e invasivo. O incentivo às informações, aconselhamento e educação continuada é recomendado como uma estratégia para ampliar a aceitação da vacina a fim de sedimentar sua implantação e assegurar a eficácia na redução dos novos casos de câncer de colo do útero para o futuro.

Avaliação da imunogenicidade de diferentes formas alélicas da proteí­na recombinante PvAMA-1expressa em Pichia pastoris: impacto da diversidade antigênica / Evaluation of the immunogenicity of different allelic forms of PvAMA-1 protein expressed in Pichia pastoris: impact of antigenic diversity

A malária é um problema de saúde pública no Brasil e no mundo. Em 2016, o número de casos estimado pela Organização Mundial de Saúde foi de 216 milhões. Plasmodium falciparum é a espécie mais prevalente e responsável pelo maior número de mortes no mundo, sobretudo no continente africano. Por outro lado, o Plasmodium vivax é conhecido por sua ampla distribuição geográfica, sendo a espécie que predomina nas Américas, incluindo o Brasil. Nos últimos 20 anos, nosso grupo tem gerado e caracterizado diversas proteínas recombinantes baseadas em antígenos imunodominantes de P. vivax que podem servir como base para o desenvolvimento de uma vacina contra malária. Entre os antígenos de merozoítas, uma das principais proteínas em estudo pelo nosso grupo é o Antígeno 1 de Membrana Apical de P. vivax (PvAMA-1), caracterizado previamente como altamente imunogênico em infecções naturais e em camundongos imunizados, na presença de diferentes adjuvantes. O objetivo do presente estudo foi investigar o efeito da diversidade antigênica dessa proteína no reconhecimento por anticorpos específicos e na indução de imunidade contra o parasita. Para isso, foram geradas seis novas proteínas representando diferentes alelos descritos na natureza: PvAMA-1-Belem, PvAMA-1-Sal-I, PvAMA-1-Chesson-I, PvAMA-1-SK0814-apical, PvAMA-1-Indonesia-XIX e PvAMA-1-PNG_62_MU. As proteínas recombinantes foram expressas em leveduras Pichia pastoris e purificadas em duas etapas cromatográficas. Em seguida, as imunizações em camundongos C57BL/6 foram realizadas com as proteínas administradas de forma isolada, ou em combinação, na presença do adjuvante agonista de TLR3 (Poly I:C). Por ELISA, observamos que todas as formulações foram capazes de induzir anticorpos IgG contra as proteínas homólogas e heterólogas, o que sugere que a diversidade antigênica entre as formas alélicas não compromete o reconhecimento. Os dados gerados no presente trabalho sugerem que uma formulação contendo mistura de diferentes alelos representando a proteína AMA-1 pode ser explorada para o desenvolvimento de uma vacina de ampla cobertura contra o P. vivax

Malaria is a public health problem in Brazil and throughout the world. In 2016, the World Health Organization estimated there were 216 million cases of malaria. Plasmodium falciparum is the most prevalent species and is responsible for the largest number of deaths, especially in the African continent. However, Plasmodium vivax is known for its wide geographic distribution, being the species that prevails in the Americas, including Brazil. In the last 20 years, our group has generated and characterized several recombinant proteins based on immunodominant antigens of P. vivax that can serve as a basis for the development of a malaria vaccine. Among the merozoite antigens, one of the main proteins studied by our group is P. vivax apical membrane antigen-1 (PvAMA-1), previously characterized as highly immunogenic in natural infections and immunized mice, in the presence of different adjuvants. The objective of this study was to investigate the effect of antigenic diversity of this protein in the recognition of specific antibodies and the induction of immunity against the parasite. For this, six new proteins were generated representing different alleles described in nature: PvAMA-1-Belem, PvAMA-1-Sal-i, PvAMA-1-Chesson-i, PvAMA-1-SK0814-apical, PvAMA-1-Indonesia-XIX, and PvAMA-1-PNG_62_MU. Recombinant proteins were expressed in Pichia pastoris yeast and purified by two chromatographic stages. Then, C57BL/6 mice were immunized with these proteins administered in isolation or in combination, in the presence of the TLR3 agonist adjuvant, Poly I:C. Using an enzyme-linked immunosorbent assay, we observed that all formulations induced IgG antibodies against homologous and heterologous proteins. This indicates that antigenic diversity between allele forms does not compromise recognition. This finding suggests that a formulation containing a mixture of different alleles representing the PvAMA-1 protein can be exploited for developing of a wide coverage vaccine against P. vivax

Vaccine Containing the Three Allelic Variants of the Plasmodium vivax Circumsporozoite Antigen Induces Protection in Mice after Challenge with a Transgenic Rodent Malaria Parasite.

Plasmodium vivax is the most common species that cause malaria outside of the African continent. The development of an efficacious vaccine would contribute greatly to control malaria. Recently, using bacterial and adenoviral recombinant proteins based on the P. vivax circumsporozoite protein (CSP), we demonstrated the possibility of eliciting strong antibody-mediated immune responses to each of the three allelic forms of P. vivax CSP (PvCSP). In the present study, recombinant proteins representing the PvCSP alleles (VK210, VK247, and P. vivax-like), as well as a hybrid polypeptide, named PvCSP-All epitopes, were generated. This hybrid containing the conserved C-terminal of the PvCSP and the three variant repeat domains in tandem were successfully produced in the yeast Pichia pastoris. After purification and biochemical characterization, they were used for the experimental immunization of C57BL/6 mice in a vaccine formulation containing the adjuvant Poly(I:C). Immunization with a recombinant protein expressing all three different allelic forms in fusion elicited high IgG antibody titers reacting with all three different allelic variants of PvCSP. The antibodies targeted both the C-terminal and repeat domains of PvCSP and recognized the native protein on the surface of P. vivax sporozoites. More importantly, mice that received the vaccine formulation were protected after challenge with chimeric Plasmodium berghei sporozoites expressing CSP repeats of P. vivax sporozoites (Pb/PvVK210). Our results suggest that it is possible to elicit protective immunity against one of the most common PvCSP alleles using soluble recombinant proteins expressed by P. pastoris. These recombinant proteins are promising candidates for clinical trials aiming to develop a multiallele vaccine against P. vivax malaria.

Control of bovine leptospirosis: Aspects for consideration in a tropical environment.

Due to the complex and dynamic epidemiology of leptospirosis on livestock, control is still controversial and frustrating. In this context, this paper discusses the main challenges and perspectives for the control of bovine leptospirosis, particularly under tropical conditions. In order to reduce the effects of the disease in cattle, it has been proposed that the control should integrate the trinomial antibiotic therapy (mainly streptomycin); vaccination (whole-cell bacterins); and environmental management. This last element should be carefully considered in tropics. Despite the enormous economic impact of the disease, mainly on its chronic and silent reproductive presentation, research on control programs is not proportional. Conversely, the number of studies regarding the new vaccine strategies, such as recombinant antigens has been increasing and should be encouraged.