Hybrid response to SARS-CoV-2 and Neisseria meningitidis C after an OMV-adjuvanted immunization in mice and their offspring.

COVID-19, caused by SARS-CoV-2, and meningococcal disease, caused by Neisseria meningitidis, are relevant infectious diseases, preventable through vaccination. Outer membrane vesicles (OMVs), released from Gram-negative bacteria, such as N. meningitidis, present adjuvant characteristics and may confer protection against meningococcal disease. Here, we evaluated in mice the humoral and cellular immune response to different doses of receptor binding domain (RBD) of SARS-CoV-2 adjuvanted by N. meningitidis C:2a:P1.5 OMVs and aluminum hydroxide, as a combined preparation for these pathogens. The immunization induced IgG antibodies of high avidity for RBD and OMVs, besides IgG that recognized the Omicron BA.2 variant of SARS-CoV-2 with intermediary avidity. Cellular immunity showed IFN-γ and IL-4 secretion in response to RBD and OMV stimuli, demonstrating immunologic memory and a mixed Th1/Th2 response. Offspring presented transferred IgG of similar levels and avidity as their mothers. Humoral immunity did not point to the superiority of any RBD dose, but the group immunized with a lower antigenic dose (0.5 µg) had the better cellular response. Overall, OMVs enhanced RBD immunogenicity and conferred an immune response directed to N. meningitidis too.

Supramolecular Peptide Self-Assemblies Facilitate Oral Immunization.

Oral immunization is a promising strategy for preventing and treating gastrointestinal (GI) infections and diseases, as it allows for direct access to the disease site. To elicit immune responses within the GI tract, however, there are many obstacles that oral vaccines must surmount, including proteolytic degradation and thick mucus barriers. Here, we employed a modular self-assembling peptide nanofiber platform to facilitate oral immunization against both peptide and small molecule epitopes. Synthesizing nanofibers with d-amino acids rendered them resistant to proteases in vitro, whereas l-amino acid nanofibers were rapidly degraded. Additionally, the inclusion of peptide sequences rich in proline, alanine, and serine (PAS), increased nanofiber muco-penetration, and accelerated nanofiber transport through the GI tract. Oral immunization with PASylated nanofibers and mucosal adjuvant generated local and systemic immune responses to a peptide epitope but only for l-amino acid nanofibers. Further, we were able to apply this design to also enable oral immunization against a small molecule epitope and illustrated the therapeutic and prophylactic effectiveness of these immunizations in mouse models of colitis. These findings demonstrate that supramolecular peptide self-assemblies have promise as oral vaccines and immunotherapies.

Immunization with a low dose of zymosan A confers resistance to depression-like behavior and neuroinflammatory responses in chronically stressed mice.

Stimulation of the innate immune system prior to stress exposure is a possible strategy to prevent depression under stressful conditions. Based on the innate immune system stimulating activities of zymosan A, we hypothesize that zymosan A may prevent the development of chronic stress-induced depression-like behavior. Our results showed that a single injection of zymosan A 1 day before stress exposure at a dose of 2 or 4 mg/kg, but not at a dose of 1 mg/kg, prevented the development of depression-like behaviors in mice treated with chronic social defeat stress (CSDS). The prophylactic effect of a single zymosan A injection (2 mg/kg) on CSDS-induced depression-like behaviors disappeared when the time interval between zymosan A and stress exposure was extended from 1 day or 5 days to 10 days, which was rescued by a second zymosan A injection 10 days after the first zymosan A injection and 4 days (4×, once daily) of zymosan A injections 10 days before stress exposure. Further analysis showed that a single zymosan A injection (2 mg/kg) 1 day before stress exposure could prevent the CSDS-induced increase in pro-inflammatory cytokines in the hippocampus and prefrontal cortex. Inhibition of the innate immune system by pretreatment with minocycline (40 mg/kg) abolished the preventive effect of zymosan A on CSDS-induced depression-like behaviors and CSDS-induced increase in pro-inflammatory cytokines in the brain. These results suggest that activation of the innate immune system triggered by zymosan A prevents the depression-like behaviors and neuroinflammatory responses in the brain induced by chronic stress.

Intranasal administration of Escherichia coli Nissle expressing the spike protein of SARS-CoV-2 induces long-term immunization and prevents spike protein-mediated lung injury in mice.

While current anti-Spike protein (SP) vaccines have been pivotal in managing the pandemic, their limitations in delivery, storage, and the inability to provide mucosal immunization (preventing infections) highlight the ongoing necessity for research and innovation. To tackle these constraints, our research group developed a bacterial-based vaccine using a non-pathogenic E. coli Nissle 1917 (EcN) strain genetically modified to express the SARS-CoV-2 spike protein on its surface (EcN-pAIDA1-SP). We intranasally delivered the EcN-pAIDA1-SP in two doses and checked specific IgG/IgA production as well as the key immune mediators involved in the process. Moreover, following the initial and booster vaccine doses, we exposed both immunized and non-immunized mice to intranasal delivery of SARS-CoV-2 SP to assess the effectiveness of EcN-pAIDA1-SP in protecting lung tissue from the inflammation damage. We observed detectable levels of anti-SARS-CoV-2 spike IgG in serum samples and IgA in bronchoalveolar lavage fluid two weeks after the initial treatment, with peak concentrations in the respective samples on the 35th day. Moreover, immunoglobulins displayed a progressively enhanced avidity index, suggesting a selective binding to the spike protein. Finally, the pre-immunized group displayed a decrease in proinflammatory markers (TLR4, NLRP3, ILs) following SP challenge, compared to the non-immunized groups, along with better preservation of tissue morphology. Our probiotic-based technology provides an effective immunobiotic tool to protect individuals against disease and control infection spread.

2022 national survey of immunizing community chain pharmacists: The case for codifying the PREP Act emergency authorities into practice.

BACKGROUND: Pharmacy-based immunization services have expanded since the mid-1990s but still face multiple challenges. Amendments to the Public Readiness and Emergency Preparedness (PREP) Act broadened patient-care scope and the pool of eligible pharmacy personnel who could administer vaccinations. The expiration of these amendments in 2024 may threaten recent gains in vaccine and other health care access newly available through pharmacies. OBJECTIVES: This study aimed to elicit community chain pharmacists' perspectives on immunization time demands, corporate guidance, data flow and information technology, workflow and workforce issues, and other newly provided services. METHODS: A survey questionnaire was developed, pretested, and electronically administered in mid-2022 to a randomly sampled national database of pharmacists maintained by the American Pharmacists Association. Descriptive analyses of survey responses were performed and findings used to identify salient themes. RESULTS: The survey collected 742 responses from a sample of 7845 community chain pharmacists (9.5% response rate). During the 2021-2022 influenza season, pharmacies administered on average 114 vaccinations daily (range 3-1000), mostly by appointment (51%). Pharmacists expressed somewhat greater preference for administering vaccinations (39%) than dispensing prescriptions (36%), and most (92%) considered it at least as important as other practice responsibilities. However, only 27% of pharmacists had adequate staff support and 67% spent more time addressing patients' vaccination confidence issues than before the pandemic. Most respondents (67%) had access to their patient's vaccination status, but only 51% said their company's computer system gave easy access. Only 49% considered corporate immunization feedback effective at enhancing their practice. Provision of nonvaccine services has expanded. CONCLUSIONS: Frontline community chain pharmacists reportedly preferred administering vaccinations over dispensing prescriptions. The pandemic resulted in an increased responsibility among pharmacists as immunizers. Notwithstanding recent progress, pharmacists continue to face staffing, corporate guidance and feedback, information management, and other structural and process barriers to optimally provide comprehensive immunization services. Survey findings support making permanent and expanding the emergency authorities that pharmacists gained under the PREP Act.

Human transcriptional signature of protection after Plasmodium falciparum immunization and infectious challenge via mosquito bites.

The identification of immune correlates of protection against infectious pathogens will accelerate the design and optimization of recombinant and subunit vaccines. Systematic analyses such as immunoprofiling including serological, cellular, and molecular assessments supported by computational tools are key to not only identify correlates of protection but also biomarkers of disease susceptibility. The current study expands our previous cellular and serological profiling of vaccine-induced responses to a whole parasite malaria vaccine. The irradiated sporozoite model was chosen as it is considered the most effective vaccine against malaria. In contrast to whole blood transcriptomics analysis, we stimulated peripheral blood mononuclear cells (PBMC) with sporozoites and enriched for antigen-specific cells prior to conducting transcriptomics analysis. By focusing on transcriptional events triggered by antigen-specific stimulation, we were able to uncover quantitative and qualitative differences between protected and non-protected individuals to controlled human malaria infections and identified differentially expressed genes associated with sporozoite-specific responses. Further analyses including pathway and gene set enrichment analysis revealed that vaccination with irradiated sporozoites induced a transcriptomic profile associated with Th1-responses, Interferon-signaling, antigen-presentation, and inflammation. Analyzing longitudinal time points not only post-vaccination but also post-controlled human malaria infection further revealed that the transcriptomic profile of protected vs non-protected individuals was not static but continued to diverge over time. The results lay the foundation for comparing protective immune signatures induced by various vaccine platforms to uncover immune correlates of protection that are common across platforms.

Low-temperature immunization attenuates the residual virulence of orf074r gene-deleted infectious spleen and kidney necrosis virus: a candidate immersion vaccine.

IMPORTANCE: Global aquaculture production yielded a record of 122.9 million tons in 2022. However, ~10% of farmed aquatic animal production is lost each year due to various infectious diseases, resulting in substantial economic waste. Therefore, the development of vaccines is important for the prevention and control of aquatic infectious diseases. Gene-deletion live attenuated vaccines are efficacious because they mimic natural pathogen infection and generate a strong antibody response, thus showing good potential for administration via immersion. However, most gene-deletion viruses still have residual virulence, and thus, gene-deletion immersion vaccines for aquatic viruses are rarely developed. In this study, an orf074r deletion strain (Δorf074r) of ISKNV with residual virulence was constructed, and an immunization process was developed to reduce its residual virulence at 22°C, thereby making it a potential immersion vaccine against ISKNV. Our work will aid in the development of an aquatic gene-deletion live-attenuated immersion vaccine.

Benefits of Combining Molecular Biology and Controlled Human Infection Model Methodologies in Advancing Vaccine Development.

Infectious diseases continue to account for a significant portion of global deaths despite the use of vaccines for several centuries. Immunization programs around the world are a testament to the great success of multiple vaccines, yet there are still diseases without vaccines and others that require safer more effective ones. Addressing uncontrolled and emerging disease threats is restrained by the limitations and bottlenecks encountered with traditional vaccine development paradigms. Recent advances in modern molecular biology technologies have enhanced the interrogation of host pathogen interaction and deciphered complex pathways, thereby uncovering the myriad interplay of biological events that generate immune protection against foreign agents. Consequent to insights into the immune system, modern biology has been instrumental in the development and production of next generation 21st century vaccines. As these biological tools, commonly and collectively referred to as 'omics, became readily available, there has been a renewed consideration of Controlled Human Infection Models (CHIMs). Successful and reproducible CHIMs can complement modern molecular biology for the study of infectious diseases and development of effective vaccines in a regulated process that mitigates risk, cost, and time, with capacity to discern immune correlates of protection.

Immunization of BALB/c mice with BAB1-0278: An initial investigation of a novel potential vaccine for brucellosis based on Lactococcus Lactis vector.

The gram-negative intracellular bacterium Brucella abortus causes bovine brucellosis, a zoonotic disease that costs a lot of money. This work developed a vector vaccine against brucellosis utilizing recombinant L. lactis expressing Brucella outer membrane protein BAB1-0278. Gene sequences were obtained from GenBank. The proteins' immunogenicity was tested with Vaxijen. The target vector was converted into L. lactis after enzymatic digestion and PCR validated the BAB1-0278 gene cloning in the pNZ8148 vector. The target protein was extracted using a Ni-NTA column and confirmed using SDS-PAGE and western blot. After vaccination with the target vaccine, the expression of IgG subclasses was evaluated by the ELISA method. Cytokine production was also measured by the qPCR method in the small intestine and spleen. Lymphocyte proliferation and innate immune response (NLR, CRP, and PLR) were also assessed. Finally, after the challenge test, the spleen tissue was examined by H&E staining. BAB1-0278 was chosen because of its antigenicity score of 0.5614. A 237-bp gene fragment was discovered using enzymatic digestion and PCR. The presence of a 13 kDa protein band was confirmed by SDS-PAGE and western blot. In comparison to the PBS group, mice given the L. lactis-pNZ8148-BAB1-0278-Usp45 vaccine 14 days after priming had substantially greater levels of total IgG, IgG1, and IgG2a (P < 0.001). Also, the production of cytokines (IFN-γ, TNFα, IL-4, and IL-10) indicating cellular immunity increased compared to the control group (P < 0.001). The target group had a lower inflammatory response, morphological impairment, alveolar edema, and lymphocyte infiltration. An efficient probiotic-based oral brucellosis vaccination was created. These studies have proven that the recommended immunization gives the best protection, which supports its promotion.

Silencing of FCRLB by shRNA ameliorates MuSK-induced EAMG in mice.

INTRODUCTION: Muscle specific kinase (MuSK) antibody positive myasthenia gravis (MG) often presents with a severe disease course and resistance to treatment. Treatment-refractory patients may respond to B cell depleting treatment methods. Our aim was to investigate whether inhibition of Fc receptor-like B (FCRLB) could effectively suppress autoimmunity without diminishing B cell counts in animal model of MG, a classical antibody-mediated autoimmune disease. METHODS: Experimental autoimmune MG was induced in Balb/C mice with two s.c. immunizations with recombinant human MuSK in complete Freund's adjuvant. FCRLB was silenced with a lentiviral particle transported shRNA in myasthenic mice with a single i.p. injection during second MuSK-immunization. Control immunized mice received scrambled shRNA or saline. Mice were observed for clinical parameters for 28 days and at termination, anti-MuSK IgG, neuromuscular junction (NMJ) deposits, muscle AChR expression and lymph node B and T cell ratios were assessed by ELISA, immunofluorescence, immunoblotting and flow cytometry, respectively. RESULTS: FCRLB shRNA-treated mice showed no muscle weakness or weight loss at termination. Also, they exhibited higher grip strength and muscle AChR levels, lower anti-MuSK IgG and NMJ IgG/C3 levels than control mice. Flow cytometry analysis showed that ratios of major effector lymph node B and T cell populations were not altered by FCRLB silencing. However, regulatory T and CD19 + CD5+ B cell ratios were decreased in FCRLB shRNA-group. CONCLUSION: Our results provide evidence regarding involvement and therapeutic value of FCRLB in MuSK-MG. Silencing of FCRLB appears to substantially inhibit antibody production without interfering with survival of major lymphocyte populations.

Homologous Sequential Immunization Using Salmonella Oral Administration Followed by an Intranasal Boost with Ferritin-Based Nanoparticles Enhanced the Humoral Immune Response against H1N1 Influenza Virus.

The influenza virus continues to pose a great threat to public health due to the frequent variations in RNA viruses. Vaccines targeting conserved epitopes, such as the extracellular domain of the transmembrane protein M2 (M2e), a nucleoprotein, and the stem region of hemagglutinin proteins, have been developed, but more efficient strategies, such as nanoparticle-based vaccines, are still urgently needed. However, the labor-intensive in vitro purification of nanoparticles is still necessary, which could hinder the application of nanoparticles in the veterinary field in the future. To overcome this limitation, we used regulated lysis Salmonella as an oral vector with which to deliver three copies of M2e (3M2e-H1N1)-ferritin nanoparticles in situ and evaluated the immune response. Then, sequential immunization using Salmonella-delivered nanoparticles followed by an intranasal boost with purified nanoparticles was performed to further improve the efficiency. Compared with 3M2e monomer administration, Salmonella-delivered in situ nanoparticles significantly increased the cellular immune response. Additionally, the results of sequential immunization showed that the intranasal boost with purified nanoparticles dramatically stimulated the activation of lung CD11b dendritic cells (DCs) and elevated the levels of effector memory T (TEM) cells in both spleen and lung tissues as well as those of CD4 and CD8 tissue-resident memory T (TRM) cells in the lungs. The increased production of mucosal IgG and IgA antibody titers was also observed, resulting in further improvements to protection against a virus challenge, compared with the pure oral immunization group. Salmonella-delivered in situ nanoparticles efficiently increased the cellular immune response, compared with the monomer, and sequential immunization further improved the systemic immune response, as shown by the activation of DCs, the production of TEM cells and TRM cells, and the mucosal immune response, thereby providing us with a novel strategy by which to apply nanoparticle-based vaccines in the future. IMPORTANCE Salmonella-delivered in situ nanoparticle platforms may provide novel nanoparticle vaccines for oral administration, which would be beneficial for veterinary applications. The combination of administering Salmonella-vectored, self-assembled nanoparticles and an intranasal boost with purified nanoparticles significantly increased the production of effector memory T cells and lung resident memory T cells, thereby providing partial protection against an influenza virus challenge. This novel strategy could open a novel avenue for the application of nanoparticle vaccines for veterinary purposes.

Circular RNA vaccine induces potent T cell responses.

Circular RNAs (circRNAs) are a class of RNAs commonly found across eukaryotes and viruses, characterized by their resistance to exonuclease-mediated degradation. Their superior stability compared to linear RNAs, combined with previous work showing that engineered circRNAs serve as efficient protein translation templates, make circRNA a promising candidate for RNA medicine. Here, we systematically examine the adjuvant activity, route of administration, and antigen-specific immunity of circRNA vaccination in mice. Potent circRNA adjuvant activity is associated with RNA uptake and activation of myeloid cells in the draining lymph nodes and transient cytokine release. Immunization of mice with engineered circRNA encoding a protein antigen delivered by a charge-altering releasable transporter induced innate activation of dendritic cells, robust antigen-specific CD8 T cell responses in lymph nodes and tissues, and strong antitumor efficacy as a therapeutic cancer vaccine. These results highlight the potential utility of circRNA vaccines for stimulating potent innate and T cell responses in tissues.

A Learning Health System Approach to Increasing Human Papillomavirus Immunizations Among Young Adults.

INTRODUCTION Immunization rates against the human papillomavirus (HPV) remain suboptimal in the young adult population. Little is known about the most effective means for encouraging vaccination in this population. METHODS The authors conducted a clinical trial of 3 methods to encourage HPV vaccination in a large Northern California integrated Health Plan. Young adults aged 18-26 with evidence of insufficient HPV vaccination were sent a bulk secure message from the Health Plan (standard outreach); those who did not respond were randomized to no further outreach, a second, personalized secure message from a specific practitioner, or a letter mailed to their home. The primary outcome was receipt of at least 1 HPV vaccine within 3 months following the initial bulk secure message. RESULTS In total, 7718 young adults were randomized. After 3 months, 86 patients (3.5%) who received no additional outreach obtained an immunization, compared with 114 (4.6%) who received the second secure message (p = 0.05) and 126 (5.1%) who received the mailed letter (p = 0.006). DISCUSSION Supplemental mailed or personalized electronic messages increased vaccination beyond no additional intervention, although gains were not clinically meaningful. These findings highlight the need for more successful alternatives to encourage uptake of such preventive health interventions among young adults. The successful conduct of this rapid-cycle, randomized trial showed that such evaluations are feasible, providing actionable data to inform implementation strategies. CONCLUSIONS Further study is needed to identify effective strategies for improving preventive health uptake in this important and underserved population. Rapid-cycle randomized evaluation strategies can provide critical information to focus efforts for achieving this goal.

Non-invasive transcutaneous influenza immunization using vaccine-loaded vaterite particles.

Transcutaneous immunization receives much attention due to the recognition of a complex network of immunoregulatory cells in various layers of the skin. The elaboration of non-invasive needle-free approaches towards antigen delivery holds especially great potential here while searching for a hygienically optimal vaccination strategy. Here, we report on a novel protocol for transfollicular immunization aiming at delivery of an inactivated influenza vaccine to perifollicular antigen presenting cells without disrupting the stratum corneum integrity. Porous calcium carbonate (vaterite) submicron carriers and sonophoresis were utilized for this purpose. Transportation of the vaccine-loaded particles into hair follicles of mice was assessed in vivo via optical coherence tomography monitoring. The effectiveness of the designed immunization protocol was further demonstrated in an animal model by means of micro-neutralization and enzyme-linked immunosorbent assays. The titers of secreted virus-specific IgGs were compared to those obtained in response to intramuscular immunization using conventional influenza vaccine formulation demonstrating no statistically significant differences in antibody levels between the groups. The findings of our pilot study render the intra-follicular delivery of the inactivated influenza vaccine by means of vaterite carriers a promising alternative to invasive immunization.

Whole sporozoite immunization with Plasmodium falciparum strain NF135 in a randomized trial.

BACKGROUND: Whole sporozoite immunization under chemoprophylaxis (CPS regime) induces long-lasting sterile homologous protection in the controlled human malaria infection model using Plasmodium falciparum strain NF54. The relative proficiency of liver-stage parasite development may be an important factor determining immunization efficacy. Previous studies show that Plasmodium falciparum strain NF135 produces relatively high numbers of large liver-stage schizonts in vitro. Here, we evaluate this strain for use in CPS immunization regimes. METHODS: In a partially randomized, open-label study conducted at the Radboudumc, Nijmegen, the Netherlands, healthy, malaria-naïve adults were immunized by three rounds of fifteen or five NF135-infected mosquito bites under mefloquine prophylaxis (cohort A) or fifteen NF135-infected mosquito bites and presumptive treatment with artemether/lumefantrine (cohort B). Cohort A participants were exposed to a homologous challenge 19 weeks after immunization. The primary objective of the study was to evaluate the safety and tolerability of CPS immunizations with NF135. RESULTS: Relatively high liver-to-blood inocula were observed during immunization with NF135 in both cohorts. Eighteen of 30 (60%) high-dose participants and 3/10 (30%) low-dose participants experienced grade 3 adverse events 7 to 21 days following their first immunization. All cohort A participants and two participants in cohort B developed breakthrough blood-stage malaria infections during immunizations requiring rescue treatment. The resulting compromised immunizations induced modest sterile protection against homologous challenge in cohort A (5/17; 29%). CONCLUSIONS: These CPS regimes using NF135 were relatively poorly tolerated and frequently required rescue treatment, thereby compromising immunization efficiency and protective efficacy. Consequently, the full potential of NF135 sporozoites for induction of immune protection remains inconclusive. Nonetheless, the high liver-stage burden achieved by this strain highlights it as an interesting potential candidate for novel whole sporozoite immunization approaches. TRIAL REGISTRATION: The trial was registered at ClinicalTrials.gov under identifier NCT03813108.

Oral Immunization with Escherichia coli Nissle 1917 Expressing SARS-CoV-2 Spike Protein Induces Mucosal and Systemic Antibody Responses in Mice.

As of October 2022, the COVID-19 pandemic continues to pose a major public health conundrum, with increased rates of symptomatic infections in vaccinated individuals. An ideal vaccine candidate for the prevention of outbreaks should be rapidly scalable, easy to administer, and able to elicit a potent mucosal immunity. Towards this aim, we proposed an engineered Escherichia coli (E. coli) Nissle 1917 (EcN) strain with SARS-CoV-2 spike protein (SP)-coding plasmid, which was able to expose SP on its cellular surface by a hybridization with the adhesin involved in diffuse adherence 1 (AIDA1). In this study, we presented the effectiveness of a 16-week intragastrically administered, engineered EcN in producing specific systemic and mucosal immunoglobulins against SARS-CoV-2 SP in mice. We observed a time-dependent increase in anti-SARS-CoV-2 SP IgG antibodies in the sera at week 4, with a titre that more than doubled by week 12 and a stable circulating titre by week 16 (+309% and +325% vs. control; both p < 0.001). A parallel rise in mucosal IgA antibody titre in stools, measured via intestinal and bronchoalveolar lavage fluids of the treated mice, reached a plateau by week 12 and until the end of the immunization protocol (+300, +47, and +150%, at week 16; all p < 0.001 vs. controls). If confirmed in animal models of infection, our data indicated that the engineered EcN may be a potential candidate as an oral vaccine against COVID-19. It is safe, inexpensive, and, most importantly, able to stimulate the production of both systemic and mucosal anti-SARS-CoV-2 spike-protein antibodies.

DNA Aß42 immunization via needle-less Jet injection in mice and rabbits as potential immunotherapy for Alzheimer's disease.

Alzheimer's disease (AD) is the most common form of dementia found in the elderly and disease progression is associated with accumulation of Amyloid beta 1-42 (Aß42) in brain. An immune-mediated approach as a preventive intervention to reduce amyloid plaques without causing brain inflammation is highly desirable for future clinical use. Genetic immunization, in which the immunizing agent is DNA encoding Aß42, has great potential because the immune response to DNA delivered into the skin is generally non-inflammatory, and thus differs quantitatively and qualitatively from immune responses elicited by peptides, which are inflammatory with production of IFNγ and IL-17 cytokines by activated T cells. DNA immunization has historically been proven difficult to apply to larger mammals. A potential barrier to use DNA immunization in large mammals is the method for delivery of the DNA antigen. We tested jet injection in mice and rabbits and found good antibody production and safe immune responses (no inflammatory cytokines). We found significant reduction of amyloid plaques and Aß peptides in brains of the DNA Aß42 immunized 3xTg-AD mouse model. This study was designed to optimize DNA delivery for possible testing of the DNA Aß42 vaccine for AD prevention in a clinical trial.

Vaccines: An Important Tool for Infectious Disease.

Vaccines are usually regarded as one of the most important tools in the battle against infectious diseases. Even though currently accessible vaccinations are an incredible success story in contemporary medicine and have had a significant impact on global morbidity and death rates, it is evident that current vaccine delivery approaches need to be improved. To allow the successful creation of vaccinations against contagious diseases that have proven challenging to manage with conventional procedures, improvements are necessary. Improvements could include the introduction of innovative injectable adjuvants or novel delivery methods, such as mucosal immunization. Protection against infections that infect mucosal areas may necessitate mucosal delivery. Alternatively, innovative techniques for delivery, such as intradermal administration using self-administrable devices or the use of microneedle technology to bypass the stratum corneum's skin penetration barrier and aid in the transport of antigens, could be utilized to increase vaccine compliance. Needle-free delivery systems are of particular relevance for safer mass immunization programs, as they would prevent problems caused by needles reuse in several regions of the world, as well as needle-stick accidents. Based on this information, future vaccine development will mainly concentrate on rational antigen, adjuvant, and, most importantly, delivery mechanism design, resulting in new and improved vaccinations. In addition, this study discusses the current state and prospects of vaccine delivery via a variety of channels, including non- or minimally invasive approaches.

Effects of oil-based adjuvants on the immune response of pigs after dermal administration of antigen and evaluation of the immunization level after a subsequent Actinobacillus pleuropneumoniae challenge in pigs.

Route of vaccine delivery can greatly impact the immunogenicity, efficacy and safety of the vaccine. Four groups of piglets were immunised transdermally (t.d.), intradermally (i.d.) or intramuscularly (i.m.) with the same doses of antigen in combination with a water-in-oil-in-water emulsion adjuvant Montanide™ ISA 201 VG or with a microemulsion adjuvant Montanide™ IMS 1313 VG N ST (Seppic, France). The last group was left without vaccination as a control group. All animals were subsequently exposed to the infection induced by Actinobacillus pleuropneumoniae (App). The immune response was evaluated with respect to the intensity of systemic and mucosal antibody formation, their isotype characterisation and rate of cell-mediated immunity. These findings were compared with the intensity of adverse local reactions and level of protection in experimental challenge. Monitoring of the local reaction at the injection site after each administration showed that microemulsion adjuvant IMS 1313 was less reactogenic than the water-in-oil-in-water emulsion ISA 201. In terms of efficacy, both dermal administrations were less immunogenic than the i.m route. The i.m. injection induced higher anti-App9 IgG and IgM titres. Nevertheless, IgG1 and IgG2 isotypes analysis revealed a close immunological profile between i.m. and i.d. routes. The concentration of IFN-γ from peripheral blood after in vitro restimulation with the specific antigen was only increased in the i.m. group at the day of challenge (D35) and two weeks after (D49). Interestingly, the smallest gross pulmonary lesions were observed in the i.d. vaccinated group (3.4%) compared to the control group (39.4%) and to groups with other routes of administration. Taken together, these results suggest that i.d. administration of vaccines is a promising approach. Even the i.d. vaccine was more reactogenic and slightly less immunogenic than the i.m. vaccine, its protection effectiveness seemed to be superior.

Granos de polen anemófilos: sensibilización en pacientes alérgicos / Anemophilic pollen grains: sensitization in allergic patients

A nivel mundial, los aeroalérgenos más frecuentes causantes de enfermedades alérgicas son los granos de polen anemófilos. Estos han sido capaces de desencadenar crisis que han reflejado una elevada morbilidad. En Cuba los estudios de sensibilización a granos de polen han sido escasos. Con el objetivo de determinar la sensibilización a granos de polen en pacientes alérgicos y su relación con la presencia de enfermedades alérgicas, se realizó un estudio observacional descriptivo de corte transversal, no aleatorizado, de marzo a junio del 2019. La muestra se constituyó de 33 pacientes con asma, rinitis, rinoconjuntivitis alérgica, dermatitis atópica y conjuntivitis alérgica. A todos los pacientes se les realizó historia clínica alergológica y prueba cutánea por punción con extractos alergénicos de: Helianthus annus, Cosmos bipinnatus, Cynodon dactylon, Quercus sp, Eucaliptus sp. Se aplicaron las frecuencias absolutas, porcientos, desviación estándar, promedio, edad media y test de Spearman para su análisis. La edad media de la muestra fue de 36,9 años, con predominio de mujeres. Más del 50por ciento de los pacientes presentaron sensibilización a granos de polen; y de ellos, el 24,24por ciento resultaron polisensibilizados. El mayor porcentaje de sensibilización fue a Cynodon dactylon. La rinitis alérgica fue la enfermedad que prevaleció en la población estudiada(AU)

Nowadays, the most frequent aeroallergens causing allergy diseases have been anemophilous pollen grains. They have been able to triggers crises that have reflected a high morbidity. In Cuba, studies of sensitization to pollen grains have been scarce. The objective of our research was to determine the sensitization to pollen grains in allergic patients and its relationship with the presence of allergic diseases. A non-randomized, descriptive, cross-sectional, observational study was conducted from March to June 2019. The sample consisted of 33 patients with asthma, allergic rhinitis, rhinoconjunctivitis, atopic dermatitis and allergic conjunctivitis. All patients underwent allergic history and skin prick test testing with allergenic extracts of: Helianthus annus, Cosmos bipinnatus, Cynodon dactylon, Quercus sp, Eucalyptus sp. Absolute frequencies, percentages, standard deviation, mean, average age, and Spearman´s test were applied for analysis. The average age of the sample was 36.9 years, with a predominance of women. More than 50percent of the patients presented sensitization to pollen grains; of them, 24.24percent polysensitized. The highest percentage of sensitization was to Cynodon dactylon. Allergic rhinitis was the disease that prevailed in the population studied(AU)