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Overall, the present thesis provides tools for virus characterization. Importantly, the application of the developed tools contributed to the fundamental knowledge of selected, veterinary relevant viruses in terms of their underlying biology and virus-host interaction.
By using in vitro models and full-genome sequencing, important new findings were gained that contributed to the deeper understanding of the selected viruses. Results show that in vitro models can be successfully modified to enable study of specific host factors that are important for viral entry. By genetically modifying a bovine cell line using CRISPR/CAS9 technology , a stable cell culture model was established that is now available to the research community, to study the virus-host interaction of pestiviruses. The model was further used to elucidate the adaptability of bovine viral diarrhea the virus and impact on infectivity and growth. By using deep sequencing, genetic changes that occurred during the adaption process of bovine viral diarrhea virus were identified and linked to the phenotype, allowing the characterization of genetic regions important for virus binding to the host cell.
Whole-genome analysis using deep-sequencing was further used to characterize circulating rabbit haemorrhagic disease virus (RHDV) strains from Germany. The study provides more than 50 full genomes of RHDV strains sampled between 2013 and 2020. Since the virus family is drastically under sampled, in particular in central Europe, these sequences represent a very valuable addition to the field. The investigation led further to the discovery of a novel recombinant virus strain in hares, that is likely still circulating today. This finding is of special interest, since it is the first detection of a recombination event between the genogroups RHDV and European brown hare syndrome virus (EBHSV) of Lagoviruses. It highlights the importance of full genome virus surveillance and the potential risk of virus variants that might evade diagnostic detection.
Serological assay were used to study the persistency of antibodies developed during a natural infection with Schmallenberg virus. It could be shown that these antibodies are long lasting and therefore, re-emergence of this virus in Europe is likely favoured by introduction of naïve animals into a herd and not by decreasing antibody-titers over time.
Overall, the discoveries described in this thesis underline the importance of adequate tools for virus characterization and they give valuable answers to fundamental questions regarding the biology of the different viruses.
In 2017, in the Polish-German transborder area of West Pomerania, Mecklenburg-Western Pomerania, and Brandenburg, in collaboration with two centers in Warsaw, a partnership in the field of newborn screening (NBS) for severe primary immunodeficiency diseases (PID), mainly severe combined immunodeficiency (SCID), was initiated. SCID, but also some other severe PID, is a group of disorders characterized by the absence of T and/or B and NK cells. Affected infants are susceptible to life-threatening infections, but early detection gives a chance for effective treatment. The prevalence of SCID in the Polish and German populations is unknown but can be comparable to other countries (1:50,000–100,000). SCID NBS tests are based on real-time polymerase chain reaction (qPCR) and the measurement of a number of T cell receptor excision circles (TREC), kappa-deleting recombination excision circles (KREC), and beta-actin (ACTB) as a quality marker of DNA. This method can also be effective in NBS for other severe PID with T- and/or B-cell lymphopenia, including combined immunodeficiency (CID) or agammaglobulinemia. During the 14 months of collaboration, 44,287 newborns were screened according to the ImmunoIVD protocol. Within 65 positive samples, seven were classified to immediate recall and 58 requested a second sample. Examination of the 58 second samples resulted in recalling one newborn. Confirmatory tests included immunophenotyping of lymphocyte subsets with extension to TCR repertoire, lymphoproliferation tests, radiosensitivity tests, maternal engraftment assays, and molecular tests. Final diagnosis included: one case of T-BlowNK+ SCID, one case of atypical Tlow BlowNK+ CID, one case of autosomal recessive agammaglobulinemia, and one case of Nijmegen breakage syndrome. Among four other positive results, three infants presented with T- and/or B-cell lymphopenia due to either the mother's immunosuppression, prematurity, or unknown reasons, which resolved or almost normalized in the first months of life. One newborn was classified as truly false positive. The overall positive predictive value (PPV) for the diagnosis of severe PID was 50.0%. This is the first population screening study that allowed identification of newborns with T and/or B immunodeficiency in Central and Eastern Europe.
The transcriptome of non-coding RNA (ncRNA) species is increasingly focused in Alzheimer’s disease (AD) research. NcRNAs comprise, among others, transfer RNAs, long non-coding RNAs and microRNAs (miRs), each with their own specific biological function. We used smallRNASeq to assess miR expression in the hippocampus of young (3 month old) and aged (8 month old) Tg4-42 mice, a model system for sporadic AD, as well as age-matched wildtype controls. Tg4-42 mice express N-truncated Aβ4–42, develop age-related neuron loss, reduced neurogenesis and behavioral deficits. Our results do not only confirm known miR-AD associations in Tg4-42 mice, but more importantly pinpoint 22 additional miRs associated to the disease. Twenty-five miRs were differentially expressed in both aged Tg4-42 and aged wildtype mice while eight miRs were differentially expressed only in aged wildtype mice, and 33 only in aged Tg4-42 mice. No significant alteration in the miRNome was detected in young mice, which indicates that the changes observed in aged mice are down-stream effects of Aβ-induced pathology in the Tg4-42 mouse model for AD. Targets of those miRs were predicted using miRWalk. For miRs that were differentially expressed only in the Tg4-42 model, 128 targets could be identified, whereas 18 genes were targeted by miRs only differentially expressed in wildtype mice and 85 genes were targeted by miRs differentially expressed in both mouse models. Genes targeted by differentially expressed miRs in the Tg4-42 model were enriched for negative regulation of long-term synaptic potentiation, learning or memory, regulation of trans-synaptic signaling and modulation of chemical synaptic transmission obtained. This untargeted miR sequencing approach supports previous reports on the Tg4-42 mice as a valuable model for AD. Furthermore, it revealed miRs involved in AD, which can serve as biomarkers or therapeutic targets.