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Oral vaccination of wildlife has shown to be a very effective management tool in rabies control. Evaluation of the genetic stability of vaccine viruses before distributing vaccine baits in the environment is essential because all available oral rabies vaccines, including the genetically engineered rabies virus vaccine strain SPBN GASGAS (Rabitec), are based on replication-competent viruses. To evaluate the genetic stability of this vaccine strain, five serial passages of the Master Seed Virus (MSV) in the production cell line BHK21 Cl13 were performed. Furthermore, to test possible reversion to virulence, a back-passage study in suckling mouse brain (SMB) was performed. Subsequently, the pooled 5th SMB passage was inoculated intracerebrally (i.c.) in adult and suckling mice. The full genome sequences of the isolated 5th passage, in vivo and in vitro, were compared at both the consensus and the quasispecies level with the MSV. Additionally, the full genome sequence of the 6th SMB passage from the individual animals was determined and compared. Full-length integration of the double glycoprotein and modified base substitutions at amino acid position 194 and 333 of the glycoprotein could be verified in all 5th and 6th passage samples. Overall, 11 single nucleotide polymorphisms (SNPs) were detected in the 5th pooled SMB passage, 4 with frequency between 10 and 20%, and 7 with between 2.5 and 10%. SNPs that resulted in amino acid exchange were found in genes: N (one SNP), G (four SNPs), and L (three SNPs). However, none of these SNPs were associated with reversion to virulence since all adult mice inoculated i.c. with this material survived. In the individual samples of the 6th SMB passage 24 additional SNPs (>2.5%) were found, of which only 1 SNP (L-gene, position 6969) had a prevalence of >50% in 3 of 17 samples. The obtained results confirmed the stable expression of genetic modifications and the genetic stability of the consensus strain after serial in vivo and in vitro passaging.

High-throughput sequencing (HTS) allows detection of known and unknown viruses in samples of broad origin. This makes HTS a perfect technology to determine whether or not the biological products, such as vaccines are free from the adventitious agents, which could support or replace extensive testing using various in vitro and in vivo assays. Due to bioinformatics complexities, there is a need for standardized and reliable methods to manage HTS generated data in this field. Thus, we developed LABRADOR—an analysis pipeline for adventitious virus detection. The pipeline consists of several third-party programs and is divided into two major parts: (i) direct reads classification based on the comparison of characteristic profiles between reads and sequences deposited in the database supported with alignment of to the best matching reference sequence and (ii) de novo assembly of contigs and their classification on nucleotide and amino acid levels. To meet the requirements published in guidelines for biologicals’ safety we generated a custom nucleotide database with viral sequences. We tested our pipeline on publicly available HTS datasets and showed that LABRADOR can reliably detect viruses in mixtures of model viruses, vaccines and clinical samples.

Oral vaccination using attenuated and recombinant rabies vaccines has been proven a powerful tool to combat rabies in wildlife. However, clear differences have been observed in vaccine titers needed to induce a protective immune response against rabies after oral vaccination in different reservoir species. The mechanisms contributing to the observed resistance against oral rabies vaccination in some species are not completely understood. Hence, the immunogenicity of the vaccine virus strain, SPBN GASGAS, was investigated in a species considered to be susceptible to oral rabies vaccination (red fox) and a species refractory to this route of administration (striped skunk). Additionally, the dissemination of the vaccine virus in the oral cavity was analyzed for these two species. It was shown that the palatine tonsils play a critical role in vaccine virus uptake. Main differences could be observed in palatine tonsil infection between both species, revealing a locally restricted dissemination of infected cells in foxes. The absence of virus infected cells in palatine tonsils of skunks suggests a less efficient uptake of or infection by vaccine virus which may lead to a reduced response to oral vaccination. Understanding the mechanisms of oral resistance to rabies virus vaccine absorption and primary replication may lead to the development of novel strategies to enhance vaccine efficacy in problematic species like the striped skunk.

MERS-CoV is a respiratory pathogen with a case-fatality rate of 36%, and for which no vaccines are currently licensed. MVA-MERS-S is a candidate vaccine based on recombinant modified vaccinia virus Ankara (MVA). In this study, the safety, immunogenicity, and optimal dose schedule of MVA-MERS-S was assessed in individuals with previous exposure to SARS-CoV-2 infections and vaccines. We conducted a multicentre, double-blind, randomised controlled phase 1b clinical trial at two university medical centres in Germany and the Netherlands. Healthy volunteers aged 18–55 years were assigned by computer randomisation to receive three intramuscular injections of 107 or 108 plaque-forming units (PFU) of MVA-MERS-S, with two treatment groups each of either 28-day or 56-day intervals between the initial two doses, and one control arm that received only placebo, at a ratio of 2:2:2:2:1. The third dose was given after 224 days. The sponsor, clinical and laboratory staff, and participants were masked to both vaccine dose and dosing interval. The primary outcome was safety, assessed in the all participants who had received at least one injection; daily solicited vaccine reactions were recorded after each dose for 7 days, unsolicited adverse events for 28 days, and serious adverse events throughout the study. The secondary outcome was humoral immunogenicity, measured with vaccine-induced geometric mean antibody concentrations and seroconversion rates, analysed in all participants who received at least three allocated treatments. This study is registered at ClinicalTrials.gov (NCT04119440) and is completed. Between 26 July, 2021, and 3 March, 2022, 244 volunteers were screened, 177 of whom were eligible and 140 were randomly assigned either to the 28-day 107 PFU group (n=32), 56-day 107 PFU group (n=31), 28-day 108 PFU group (n=31), 56-day 108 PFU group (n=30), or placebo group (n=16). In total, 178 doses were administered of 107 PFU of MVA-MERS-S, 174 of 108 PFU, and 164 doses of placebo, and 139 participants received at least one injection. 73 (53%) were female and 66 (48%) were male. No serious vaccine-related adverse events occurred. Solicited local reactions were mild in 288 (93%, 95% CI 90–96) of 309 reports and consisted primarily of pain or tenderness. Pain or tenderness (of any severity) occurred after 69 (39%, 32–46) of 178 107 PFU injections, 138 (79%; 73–85) of 174 108 PFU injections, and 18 (11%; 7–11) of 164 placebo injections. Of 595 reported solicited systemic reactions, 479 (81%, 77–83) were graded as mild. Systemic reactions of any grade occurred after 77 (43%; 36–51) 107 PFU injections, 102 (59%; 51–66) 108 PFU injections, and 67 (41%; 34–49) of 164 placebo injections. At 28 days after the second dose, MERS-CoV neutralising antibodies were highest for participants assigned to 56-day 108 PFU, with geometric mean ratios of 7·2 (95% CI 3·9–13·3) for the 56-day 108 PFU group versus the 28-day 108 PFU group (p<0·0001), 3·9 (2·1–7·2) for the 56-day 108 PFU group versus the 56-day 107 PFU group (p=0·0031), and 5·4 (2·9–10·0) for the 56-day 108 PFU group versus the 28-day 107 PFU group (p=0·0003). MVA-MERS-S was safe and immunogenic in individuals with previous and concurrent SARS-CoV-2 exposure. The second vaccination with the 108 PFU dose of MVA-MERS-S elicited a stronger humoral immune response when administered 56 days after the first dose than a 28-day interval. Further studies are needed to verify these findings in groups at risk for MERS-CoV exposure, and at risk of severe disease, including older individuals and those with relevant comorbidities. Coalition for Epidemic Preparedness Innovations, the German Centre for Infection Research, and the German Research Foundation.

Several viral vaccines, including highly promising vectors such as modified vaccinia Ankara (MVA), are produced on chicken embryo fibroblasts. Dependence on primary cells complicates production especially in large vaccination programs. With primary cells it is also not possible to create packaging lines for replication-deficient vectors that are adapted to proliferation in an avian host. To obviate requirement for primary cells permanent lines from specific tissues of muscovy duck were derived (AGE1.CR, CS, and CA) and further modified: we demonstrate that stable expression of the structural gene pIX from human adenovirus increases titers for unrelated poxvirus in the avian cells. This augmentation appears to be mediated via induction of heat shock and thus provides a novel cellular substrate that may allow further attenuation of vaccine strains.

We previously described the generation of a novel Ebola virus (EBOV) vaccine based on inactivated rabies virus (RABV) containing EBOV glycoprotein (GP) incorporated in the RABV virion. Our results demonstrated safety, immunogenicity, and protective efficacy in mice and nonhuman primates (NHPs). Protection against viral challenge depended largely on the quality of the humoral immune response against EBOV GP. Here we present the extension and improvement of this vaccine by increasing the amount of GP incorporation into virions via GP codon-optimization as well as the addition of Sudan virus (SUDV) and Marburg virus (MARV) GP containing virions. Immunogenicity studies in mice indicate similar immune responses for both SUDV GP and MARV GP compared to EBOV GP. Immunizing mice with multiple antigens resulted in immune responses similar to immunization with a single antigen. Moreover, immunization of NHP with the new inactivated RABV EBOV vaccine resulted in high titer neutralizing antibody levels and 100% protection against lethal EBOV challenge when applied with adjuvant. Our results indicate that an inactivated polyvalent vaccine against RABV filoviruses is achievable. Finally, the novel vaccines are produced on approved VERO cells and a clinical grade RABV/EBOV vaccine for human trials has been produced.

Im mitteldeutschen Raum stehen für Aussagen zu Veränderungen am Übergang vom Neolithikum zur Bronzezeit vor allem zahlreiche Grabfunde der Schnurkeramik-, Glockenbecher- und Aunjetitzer Kultur zur Verfügung. Ihre Auswertungen zeigen deutliche Unterschiede im sozialen Aufbau der endneolithisch-frühbronzezeitlichen Kulturen.

Recent discourse in the field of participatory agricultural research has focused on how to blend various forms and intensities of stakeholder participation with quality agricultural science, moving beyond the simple “farmer-first” ideology of the 1980s and early 1990s. Yet, most existing frameworks of participation in agricultural research still adhere to a linear typology of participatory research with an inherent claim of “the more participation, the better.” In this article, we propose a new framework that looks at participatory research elements along different dimensions and attributes and thus takes into account the diversity and dynamics of agricultural research projects. The framework provides a basis for agricultural researchers engaged in participatory processes with local stakeholders to decide for which issues and in which phases certain participatory elements could be used in a specific research context. Rather than aiming at maximizing the adoption of participatory methods, it can thus become a tool for optimizing the use of participatory approaches in agricultural research. We conclude that this framework can be a starting point for a more thoughtful integration of participatory elements in agricultural research projects that does justice to the multidimensional and dynamic nature of stakeholder participation in varying contexts.