The Long Journey to BVD Eradication.

This paper provides a short review of bovine virus diarrhoea (BVD) control programmes across Europe, with a particular focus on current efforts from a stakeholder perspective. Using outputs gained from a global, virtual congress on BVD control, the theory of the journey from BVD control to possible eradication is enriched with insight from stakeholders representing the major parts of the cattle industry. Current control programmes were presented by Javier Dieguez (Galicia), Neil Shand (England), Neil Paton (Wales), Jenny Purcell (Scotland), Maria Guelbenzu (Ireland), Jörn Gethmann (Germany), and Matthias Schweizer (Switzerland).

Control of Bovine Viral Diarrhea.

Bovine viral diarrhea (BVD) is one of the most important infectious diseases of cattle with respect to animal health and economic impact. Its stealthy nature, prolonged transient infections, and the presence of persistently infected (PI) animals as efficient reservoirs were responsible for its ubiquitous presence in cattle populations worldwide. Whereas it was initially thought that the infection was impossible to control, effective systematic control strategies have emerged over the last 25 years. The common denominators of all successful control programs were systematic control, removal of PI animals, movement controls for infected herds, strict biosecurity, and surveillance. Scandinavian countries, Austria, and Switzerland successfully implemented these control programs without using vaccination. Vaccination as an optional and additional control tool was used by e.g., Germany, Belgium, Ireland, and Scotland. The economic benefits of BVD control programs had been assessed in different studies.

Epidemiology, diagnosis and control of classical swine fever: Recent developments and future challenges.

Classical swine fever (CSF) represents a major health and trade problem for the pig industry. In endemic countries or those with a wild boar reservoir, CSF remains a priority for Veterinary Services. Surveillance as well as stamping out and/or vaccination are the principle tools of prevention and control, depending on the context. In the past decades, marker vaccines and accompanying diagnostic tests allowing the discrimination of infected from vaccinated animals have been developed. In the European Union, an E2 subunit and a chimeric live vaccine have been licensed and are available for the use in future disease outbreak scenarios. The implementation of commonly accepted and globally harmonized concepts could pave the way to replace the ethically questionable stamping out policy by a vaccination-to-live strategy and thereby avoid culling of a large number of healthy animals and save food resources. Although a number of vaccines and diagnostic tests are available worldwide, technological advancement in both domains is desirable. This work provides a summary of an analysis undertaken by the DISCONTOOLS group of experts on CSF. Details of the analysis can be downloaded from the web site at http://www.discontools.eu/.

The control of classical swine fever in wild boar.

Classical swine fever (CSF) is a viral disease with severe economic consequences for domestic pigs. Natural hosts for the CSF virus (CSFV) are members of the family Suidae, i.e., Eurasian wild boar (sus scrofa) are also susceptible. CSF in wild boar poses a serious threat to domestic pigs. CSFV is an enveloped RNA virus belonging to the pestivirus genus of the Flaviviridae family. Transmission of the infection is usually by direct contact or by feeding of contaminated meat products. In recent decades CSF has been successfully eradicated from Australia, North America, and the European Union. In areas with dense wild boar populations CSF tends to become endemic whereas it is often self-limiting in small, less dense populations. In recent decades eradication strategies of CSF in wild boar have been improved considerably. The reduction of the number of susceptible animals to a threshold level where the basic reproductive number is R 0 < 1 is the major goal of all control efforts. Depending on the epidemiological situation, hunting measures combined with strict hygiene may be effective in areas with a relatively low density of wild boar. Oral immunization was shown to be highly effective in endemic situations in areas with a high density of wild boar.

Pestivirus control programs: how far have we come and where are we going?

Classical swine fever (CSF) is endemic in large parts of the world and it is a major threat to the pig industry in general. Vaccination and stamping out have been the most successful tools for the control and elimination of the disease. The systematic use of modified live vaccines (MLV), which are very efficacious and safe, has often preceded the elimination of CSF from regions or countries. Oral vaccination using MLV is a powerful tool for the elimination of CSF from wild boar populations. Bovine virus diarrhea (BVD) is endemic in bovine populations worldwide and programs for its control are only slowly gaining ground. With two genotypes BVD virus (BVDV) is genetically more diverse than CSF virus (CSFV). BVDV crosses the placenta of pregnant cattle resulting in the birth of persistently infected (PI) calves. PI animals shed enormous amounts of virus for the rest of their lives and they are the reservoir for the spread of BVDV in cattle populations. They are the main reason for the failure of conventional control strategies based on vaccination only. In Europe two different approaches for the successful control of BVD are being used: Elimination of PI animals without or with the optional use of vaccines, respectively.

Disseminated intravascular coagulation does not play a major role in the pathogenesis of classical swine fever.

Classical swine fever (CSF) is a multi-systemic disease that can be accompanied by severe haemorrhagic lesions. The underlying pathogenetic mechanisms are still far from being understood, though disseminated intravascular coagulation (DIC) was discussed as a major factor. In the presented study, the direct thrombin inhibitor hirudin was used in an attempt to elucidate the role of the coagulation system in the pathogenesis of CSF-induced haemorrhagic lesions. Two groups of piglets (n=5) were infected with highly virulent CSF virus (CSFV) strain CSF0634. One group underwent daily treatment with hirudin, the other served as untreated challenge infection control. Assessment of clinical signs using a clinical score system, coagulation tests, and blood counts were performed daily. Both groups developed acute-lethal CSF with haemorrhagic lesions. Although changes in the coagulation system were seen in the late stages of CSFV infection, our results strongly suggest that DIC does not present the crucial event in the pathogenesis of haemorrhagic lesions.

Classical swine fever in Europe--the current situation.

Classical swine fever (CSF) is considered to be one of the most important viral diseases in pigs worldwide. In many parts of the world great efforts are being undertaken to reduce economic losses caused by CSF or to eradicate the disease. Among the member states of the European Union (EU) a harmonized strategy for diagnosis, control and eradication of CSF is applied. Success of the common strategy is documented by the decreasing number of outbreaks during the last decade. The present article summarizes the recent situation concerning CSF in Europe with special focus on the situation in the EU member states. In particular, outbreaks in domestic pigs and wild boar, the identified virus isolates, and eradication and monitoring programs actually performed in the EU are described. Despite achieved progress towards eradication, CSF remains a continuous threat to the European pig and wild boar population. After introduction of CSF virus (CSFV) into the domestic pig population rapid spread as a consequence of high frequency of animal movements and intensive trade within Europe can be suspected. Platforms like the CSF sequence database and the CSF in wild boar surveillance database have been implemented as tools to easily exchange information concerning CSF. The improved availability of data about circulating CSFV isolates will help to elucidate possible sources of virus introduction and to better understand routes of virus transmission.

New insights into the antigenic structure of the glycoprotein E(rns) of classical swine fever virus by epitope mapping.

The E(rns) glycoprotein of classical swine fever virus (CSFV) has been studied in detail concerning biochemical and functional properties, whereas less is known about its antigenic structure. In order to define epitopes recognized by CSFV-specific antibodies, the binding sites of seven E(rns)-specific monoclonal antibodies were investigated. Mapping experiments using chimeric E(rns) proteins, site-directed mutagenesis and an overlapping peptide library identified one antigenic region located between amino acids (aa) 55 to 110 on the E(rns) protein of CSFV Alfort/187. The domain comprises three linear motifs *(64)TNYTCCKLQ(72), (73)RHEWNKHGW(81), and (88)DPWIQLMNR(96), respectively, and two aa at position 102 and 107 that are crucial for the interaction with antibodies. Additionally, the presentation of the epitope in a correct conformation is mandatory for an efficient antibody binding. These findings allow a better understanding of the organization and the structure of the E(rns) and provide valuable information with regard to the development of E(rns)-based diagnostic tests.

The core protein of classical Swine Fever virus is dispensable for virus propagation in vitro.

Core protein of Flaviviridae is regarded as essential factor for nucleocapsid formation. Yet, core protein is not encoded by all isolates (GBV- A and GBV- C). Pestiviruses are a genus within the family Flaviviridae that affect cloven-hoofed animals, causing economically important diseases like classical swine fever (CSF) and bovine viral diarrhea (BVD). Recent findings describe the ability of NS3 of classical swine fever virus (CSFV) to compensate for disabling size increase of core protein (Riedel et al., 2010). NS3 is a nonstructural protein possessing protease, helicase and NTPase activity and a key player in virus replication. A role of NS3 in particle morphogenesis has also been described for other members of the Flaviviridae (Patkar et al., 2008; Ma et al., 2008). These findings raise questions about the necessity and function of core protein and the role of NS3 in particle assembly. A reverse genetic system for CSFV was employed to generate poorly growing CSFVs by modification of the core gene. After passaging, rescued viruses had acquired single amino acid substitutions (SAAS) within NS3 helicase subdomain 3. Upon introduction of these SAAS in a nonviable CSFV with deletion of almost the entire core gene (Vp447(Δc)), virus could be rescued. Further characterization of this virus with regard to its physical properties, morphology and behavior in cell culture did not reveal major differences between wildtype (Vp447) and Vp447(Δc). Upon infection of the natural host, Vp447(Δc) was attenuated. Hence we conclude that core protein is not essential for particle assembly of a core-encoding member of the Flaviviridae, but important for its virulence. This raises questions about capsid structure and necessity, the role of NS3 in particle assembly and the function of core protein in general.

A generic real-time TaqMan assay for specific detection of lapinized Chinese vaccines against classical swine fever.

Classical swine fever (CSF) is a highly contagious disease, causing severe economic losses in the pig industry worldwide. Vaccination of pigs with lapinized Chinese vaccines is still practised in some regions of the world, where the virus is enzootic, in order to prevent and control the disease. However, a single real-time assay that can detect all lapinized Chinese vaccines used widely, namely, Lapinized Philippines Coronel (LPC), Hog Cholera Lapinized virus (HCLV) and the Riems C-strain is still lacking. This study describes a real-time RT-PCR assay, targeting the N(pro) gene region, for specific detection of these lapinized vaccine strains. The assay is highly sensitive, with a detection limit of 10 genome copies per reaction for HCLV and Riems C-strain and highly specific, as more than 100 strains of wild type CSFV representing all major genotypes were not detected. The assay is also highly repeatable: the coefficient of variation of Ct values in three runs was 2.77% for the detection of 10 copies of the vaccine viral RNA. This study provides a potentially useful tool for specific detection of the lapinized Chinese vaccines, HCLV and C-strain, and the differentiation of these vaccines from wild type CSFV.

[Pathogenesis of classical swine fever--similarities to viral haemorrhagic fevers: a review]. / Pathogenese der Klassischen Schweinepest--Parallelen zu viralen hämorrhagischen Fiebern: eine Ubersicht.

In spite of differences in etiology, viral haemorrhagic diseases share similarities in their pathogenesis. Characteristic for these diseases are thrombocytopenia, petechia and increased vascular leakage. Most lesions can be attributed to cytokine-mediated interactions triggered by infected and activated monocytes and macrophages, rather than by virus-induced direct cell damage. Causative agents of viral hemorrhagic diseases are enveloped RNA viruses. In most cases, they are transmitted to humans from their animal hosts by rodents or arthropod vectors (Arboviruses). Due to the clinical picture, the acute lethal form of classical swine fever (CSF) is also considered as a viral haemorrhagic disease. CSF is caused by an RNA virus in the family Flaviviridae, and members of the Suidae family are the only ones clinically affected. It is a highly contagious, therefore notifiable disease. In contrast to other viral hamorrhagic diseases, it is mainly transmitted oro-nasally by contact with infected pigs, or by contaminated items (semen, swill feed, clothing). The present survey summarizes analogies between classical representatives of viral haemorrhagic fevers, and recapitulates current knowledge concerning the pathogenesis of classical swine fever.

IBR and BVD control: the key to successful herd management.

Control of IBR and BVD should be possible in Europe. Effective vaccines and reliable tools for monitoring are available. Systematic approach and strict implementation of control measures are essential. Voluntary or mandatory programs are ongoing on regional or national level in a lot of countries. Successful programs put pressure on surrounding regions/countries to initiate control program as well.

Classical swine fever virus in South-Eastern Europe--retrospective analysis of the disease situation and molecular epidemiology.

Classical swine fever (CSF) is among the most important diseases of domestic pigs and causes great socio-economic losses. Therefore, control of CSF is given high priority within the European Union, including financial support of concerted control actions in candidate and in potential candidate countries. Unfortunately, from some of these countries information on the CSF situation and related data is very limited. This study was undertaken to gather all available information on the domestic pig population and husbandry, and of the CSF situation in domestic pigs and wild boar in South-Eastern European countries that have recently joined or are applying to join the European Union. A characteristic feature of pig production in Eastern Europe is that most of them are in backyard holdings. Although mandatory vaccination is carried out in most of these countries, sporadic CSF outbreaks still occur. Little is still known about the CSF situation in wild boar. In addition, molecular epidemiology of 97 CSF virus isolates available from these countries, from outbreaks that occurred between 1994 and 2007, was performed. Most of the isolates were from Romania and Bulgaria. Genetic typing showed that almost all isolates (with exception of Croatian and of the Macedonian isolates) belonged to genotype 2.3. On the basis of these sequences, and additional sequences from outbreaks in Eastern and Western European countries taken from the database held at the European Union Reference Laboratory (EURL), two clusters could be distinguished within subtype 2.3. They were tentatively named 2.3.1 and 2.3.2.

[Transmission risk for foot-and-mouth-disease in an animal-densed region in Germany--results from an expert survey]. / Risiken der Ubertragung der Maul- und Klauenseuche in einer viehdichten Region in Deutschland--Ergebnisse einer empirischen Expertenbefragung.

Due to its strong impact on economics and trading the Foot-and-Mouth-Disease (FMD) is one of the most important animal diseases within animal husbandry. Because no recent specific field observation for FMD exists in Germany, the risk assessment needs validated epidemiological models to prepare decision tools for FMD-outbreak management. The aim of this investigation was therefore to prepare a risk assessment for different transmission pathways to use for FMD-models in future. To prepare a FMD-transmission model the risk was assessed within a highly animal densed region in Germany by means of an expert survey. For each transmission pathway an assessment was given in the categories low, medium, high and severe. Some pathways were rated homogenously between the experts, but some were rated heterogeneously. Therefore areas were identified with common rating as well as areas, where further investigations to specify FMD-models are necessary.

Cytopathogenicity of classical Swine Fever virus correlates with attenuation in the natural host.

For the important livestock pathogens classical swine fever virus (CSFV) and bovine viral diarrhea virus (BVDV), cytopathogenic (cp) and non-cp viruses are distinguished according to the induction of apoptosis in infected tissue culture cells. However, it is currently unknown whether cp CSFV differs from non-cp CSFV with regard to virulence in the acutely infected host. In this study, we generated helper virus-independent CSFV Alfort-Jiv, which encompasses sequences encoding domain Jiv-90 of cellular J-domain protein interacting with viral protein (Jiv). Expanding the knowledge of BVDV, our results suggest that Jiv acts as a regulating cofactor for the nonstructural (NS) protein NS2 autoprotease of CSFV and initiates NS2-3 cleavage in trans. For Alfort-Jiv, the resulting expression of large amounts of NS3 correlated with increased viral RNA synthesis and viral cytopathogenicity. Moreover, both cp Alfort-Jiv and the parental non-cp CSFV strain Alfort-p447 efficiently replicate in cell culture. Animal experiments demonstrated that in contrast to parental non-cp Alfort-p447, infection with cp Alfort-Jiv did not cause disease in pigs but induced high levels of neutralizing antibodies, thus elucidating that cp CSFV is highly attenuated in its natural host. In contrast to virulent Alfort-p447, the attenuated CSFV strain Alfort-Jiv induces the expression of cellular Mx protein in porcine PK-15 cells. Accordingly, the remarkable difference between cp and non-cp CSFV with regard to the ability to cause classical swine fever in pigs correlates with different effects of cp and non-cp CSFV on cellular antiviral defense mechanisms.

Retrospective analysis of the oral immunisation of wild boar populations against classical swine fever virus (CSFV) in region Eifel of Rhineland-Palatinate.

In the present study the effect of control measures implemented during the classical swine fever (CSF) epidemic in wild boar in the Eifel region of the German federal state of Rhineland-Palatinate from 1999 to 2005 was assessed. During the first 3 years after official confirmation of virus detection these measures comprised intensive hunting, especially of young animals and hygiene measures. Subsequently oral immunisation (o.i.) using a modified live virus vaccine was introduced as an additional control tool. All shot wild boar from the restricted area were tested virologically and serologically for CSF. The laboratory results from over 110,000 animals accompanied by information about age, gender and geographical origin of the animals were collected in a relational database. In total about 82% of all virologically positive wild boars were piglets, thus confirming the importance of this age group in the perpetuation of the epidemic. An analysis of the hunting bag showed that piglets were underrepresented compared to older animals throughout the eradication programme. This finding indicated that hunters did not comply with the control strategy of intense targeting of young animals. Before as well as after the implementation of o.i. a significantly higher virological prevalence and a significantly lower serological prevalence were observed in piglets compared to yearlings and adults. Shortly after the beginning of the vaccination campaign in February 2002 CSFV prevalence decreased significantly whereas the serological prevalence increased markedly in all age classes. In order to test the influence of age and vaccination on the serological prevalence a logistic regression model was used. Our results strongly suggest that under the field conditions in the Eifel region vaccination against CSFV had a crucial influence on the increase of seroprevalence rate and the elimination of CSFV. The last virus-positive pig was found 13 months after start of o.i.

Diagnostic methods for detection of Classical swine fever virus--status quo and new developments.

Classical swine fever (CSF) is a highly contagious disease causing major losses in pig populations almost worldwide. The disease occurs in many regions of Asia, Central and South America and parts of Europe and Africa. Some countries have eradicated the disease (Australia, USA, Canada, within the EU), yet it keeps recurring sporadically (South Africa, Germany, Netherlands, England). The causative virus is a member of the genus Pestivirus, family Flaviviridae. The first diagnosis of CSF is based on the recognition of clinical signs by the veterinarian in the field and by post mortem findings. Many signs are not exclusively associated with CSF and they may vary with the strain of virus, age and health status of the pigs. Since clinical signs may be confused with other pig diseases, laboratory diagnosis of CSF is indispensable. Both the Office International des Epizooties (OIE) and the European Union, have approved diagnostic manuals establishing sampling methods and diagnostic procedures for the confirmation of the disease. In this review, experiences with current tests will be analyzed and complemented with new developments, with emphasis on the polymerase chain reaction after reverse transcription of the RNA genome (RT-PCR).

A sequence database allowing automated genotyping of Classical swine fever virus isolates.

Classical swine fever (CSF) is a highly contagious viral disease of pigs. According to the OIE classification of diseases it is classified as a notifiable (previously List A) disease, thus having the potential for causing severe socio-economic problems and affecting severely the international trade of pigs and pig products. Effective control measures are compulsory, and to expose weaknesses a reliable tracing of the spread of the virus is necessary. Genetic typing has proved to be the method of choice. However, genotyping involves the use of multiple software applications, which is laborious and complex. The implementation of a sequence database, which is accessible by the World Wide Web with the option to type automatically new CSF virus isolates once the sequence is available is described. The sequence to be typed is tested for correct orientation and, if necessary, adjusted to the right length. The alignment and the neighbor-joining phylogenetic analysis with a standard set of sequences can then be calculated. The results are displayed as a graph. As an example, the determination is shown of the genetic subgroup of the isolate obtained from the outbreaks registered in Russia, in 2005. After registration (Irene.greiser-wilke@tiho-hannover.de) the database including the module for genotyping are accessible under http://viro08.tiho-hannover.de/eg/eurl_virus_db.htm.

Expression of the surface glycoprotein E2 of Bovine viral diarrhea virus by recombinant vesicular stomatitis virus.

This study analysed the transport behaviour of the glycoprotein E2 of Bovine viral diarrhea virus (BVDV) expressed from recombinant vesicular stomatitis virus (rVSV). E2 protein was found to be retained at an intracellular compartment. A chimeric protein containing the membrane anchor and cytoplasmic tail of the VSV G protein, E2-G(MT), was transported to the cell surface. Only the latter protein was incorporated into rVSV particles in significant amounts. A soluble form of E2 lacking the membrane anchor, E2(MTdel), appeared to be affected in conformational stability. In contrast to both membrane-anchored forms of E2, expression of the soluble form was detectable only by immunofluorescence microscopy but not by Western blotting. These results are in agreement with reports of intracellular retention of the E2 protein due to a retention signal in the membrane anchor. However, in another analysis of E2 expressed from rVSV, E2 protein was reported to be transported to the cell surface and incorporated into VSV particles [Grigera, P. R., Marzocca, M. P., Capozzo, A. V. E., Buonocore, L., Donis, R. O. & Rose, J. K. (2000). Virus Res 69, 3-15]. Reasons for these contradictory results are discussed.