Virus der Klassischen Schweinepest, KSPV, Virulenz, Pathogenese, Virus-Wirt Interaktion, Makrophagen, reverse Genetik, KSP Überwachung

Classical swine fever virus, CSFV, virulence, pathogenesis, virus-host interaction, macrophages, reverse genetics, CSF surveillance

Das Klassische Schweinepest Virus (KSPV) ist hoch ansteckend und kann hohen wirtschaftlichen Schaden in Schweinezuchtbetrieben verursachen. Die Klassische Schweinepest (KSP) tritt in vielen Teilen der Welt auf, so auch in einigen Ländern Osteuropas. Durch die zunehmende Globalisierung steigt das Risiko einer Einschleusung des Virus nach Mitteleuropa und somit auch in die Schweiz. Die Virulenz der verschiedenen KSPV Isolate variiert stark. Es gibt niedrig virulente Isolate welche keine klinischen Symptome verursachen, sowie hoch virulente Isolate welche schwere Krankheitsverläufe und Mortalitätsraten bis zu 100% verursachen können. Infektionen mit niedrig virulenten Isolaten können chronisch verlaufen und daher unentdeckt bleiben. Unterschiede in der Virulenz verschiedener Isolaten können mit aufwendigen Zellkultursystemen einigermaßen vorausgesagt werden (Projekt 1.10.13). Das Ziel dieses Projektes ist es, aus den bisherigen Erkenntnissen einfache genetische Testsysteme zu entwickeln zur Bestimmung der Virulenz von neu auftretenden KSPV Isolaten. Dies soll langfristig zur Verminderung von diagnostischen Infektionsversuchen im Schwein mit neuen Isolaten führen. Zur Entwicklung solcher Testsysteme bilden Kenntnisse über die molekularen Hintergründe der Virulenz sowie die zelluläre Antwort auf die Infektion die Grundvoraussetzungen. Diese Erkenntnisse unterstützen sowohl epidemiologische Studien, als auch die KSPV Überwachung.

Classical swine fever virus (CSFV) is a highly contagious pathogen of pigs that can cause enormous economic losses in pig production units. The virus is still present in wild boars and domestic pigs in many areas of the world, including some Eastern European countries. There is a constant risk of CSFV reintroduction into Central Europe including Switzerland due to globalisation. CSFV isolates display a great variability in virulence, ranging from low virulent strains without apparent clinical signs to highly virulent isolates with severe course of disease and nearly 100% mortality. The low virulent strains are of particular importance for disease control, as infections can become chronic and remain undetected. Correlates of virulence were identified using porcine cell culture systems (project 1.10.13). The aim of the present study is to use these systems to develop reliable genetic tests for the determination of virulence of newly emerging CSFV isolates, without the use of experimental infection of pigs. The prerequisite for the development of such assays is knowledge of the viral determinants of virulence and of the cellular responses to CSFV infection. Determination of the virulence phenotype of CSFV isolates contributes to improve surveillance, monitoring and epidemiology of CSFV.

Cell culture assays involving sophisticated techniques such as flow cytometry as readout to determine the virulence of CSFV are cumbersome and difficult to standardize for diagnostic applications. The ideal assay would use simple genetic readouts comprising nucleotide sequence information and quantitative RT-PCR. This implies knowledge of the viral and host determinants of virulence. An important finding of the project 1.10.13 is that highly virulent CSFV replicate more efficiently in IFN-γ-stimulated macrophages than lower virulent viruses. Thus, virulence may be related to the capacity of a virus to evade the antiviral state of the macrophages. The viral determinants for this phenotype are unknown.

The macrophage factors that are differentially activated after infection with CSFV of different virulence are also unknown. Very preliminary data in our laboratory indicate that the porcine reproductive and respiratory syndrome virus (PRRSV) does also differ in its capacity to infect activated macrophages, depending on the virulence of the isolate. This emphasizes the importance of understanding the macrophage factors that determine CSFV infection. These factors may be of general importance for virus infection. Their identification may prove useful to characterize the virulence of viruses with macrophage tropism in general, including PRRSV, porcine circovirus (PCV) and African swine fever (ASF).

According to the findings with IFN-γ-stimulated macrophages in project 1.10.13, the main goal of this follow-up project is to identify the viral genetic elements that determine evasion from the antiviral state of macrophages.

In addition, this project aims (i) to study the replication properties of CSFV isolates of different virulence in IFN-γ-stimulated macrophages and (ii) to identify the genes that are up-regulated in these macrophages in response to infection with the different viruses.

Publications, posters, and presentations

Töpfer, A. et al (2013) Sequencing approach to analyse the role of quasispecies in virulence of classical swine fever virus. Virology 438, 14-19 (BLV 1.10.13)

Leifer, I. et al (2013) Approaches to define the viral genetic basis of classical swine fever virus virulence. Virology 438, 51-55 (BLV 1.10.13)

Liniger M. et al. Highly virulent classical swine fever virus isolates can be differentiated from low virulent isolates in cell culture. In preparation

Tamura, T et al. A N-terminal amphipathic helix in NS4B of classical swine fever virus contributes to pathogenicity in pigs. In preparation

Liniger, M. et al. Differential transcriptomic response of porcine monocyte-derived macrophages to low and high virulent classical swine fever virus. In preparation.

1.12.20 Ruggli Entwicklung von genetischen Tests zur Bestimmung der Virulenz von Viren der Klassisc…