Evidence for Tunisian‐Like Pestiviruses Presence in Small Ruminants in Italy Since 2007

The genus Pestivirus, which belongs to the Flaviviridae family, includes ssRNA+ viruses responsible for infectious diseases in pigs, cattle, sheep, goats and other domestic and wild ruminants. Like most of the RNA viruses, pestivirus has high genome variability with practical consequences on disease epidemiology, diagnosis and control. In addition to the officially recognized species in the genus Pestivirus, such as BVDV‐1, BVDV‐2, BDV and CSFV, other pestiviruses have been detected. Furthermore, most of the ruminant pestiviruses show low or absent species specificity observed in serological tests and are able to infect multiple species. Particularly, small ruminants are receptive hosts of the most heterogeneous group of pestiviruses. The aim of this study was to carry out the molecular characterization of pestiviruses isolated from sheep and goats in Sicily, Italy. Phylogenetic analysis of two viral genomic regions (a fragment of 5′‐UTR and the whole N^pro regions) revealed the presence of different pestivirus genotypes in the analysed goat and sheep herds. Two of five viral isolates were clustered with BVDV‐1d viruses, a strain widespread in Italy, but never reported in Sicily. The other three isolates formed a distinct cluster with high similarity to Tunisian isolates, recently proposed as a new pestivirus species. This represents the first evidence for Tunisian‐like pestivirus presence in small ruminants in Italy. Furthermore, one of the isolates was collected from a goat, representing the first isolation of Tunisian‐like pestivirus from this species.     

Genetic Diversity of Brazilian Bovine Pestiviruses Detected Between 1995 and 2014

Pestivirus infections in ruminants result in significant economic losses worldwide. The aetiological agents are three species from the genus Pestivirus, family Flaviviridae, including bovine viral diarrhoea virus type 1 (BVDV‐1), BVDV‐2, border disease virus (BDV), and an atypical pestivirus named HoBi‐like pestivirus. In this study, eighty‐nine pestivirus isolates that were collected in Brazil between 1995 and 2014 and that originated from either cattle, fetal bovine serum (FBS) or as cell culture contaminants were genotyped based on a comparison of gene sequences from their 5′ untranslated regions (5′UTR), N‐terminal autoprotease (N^pro) and envelope glycoprotein 2 (E2). Of these isolates, 53.9% of the sequences were genotyped as BVDV‐1, 33.7% as BVDV‐2 and 12.4% as HoBi‐like pestivirus. The prevalence of subgenotypes within the species was as follows: BVDV‐1a (35.9%), BVDV‐2b (31.4%), BVDV‐1b (10.1%), BVDV‐1d (6.7%), BVDV‐2c (2.2%) and BVDV‐1e (1.1%). BVDV‐2c and BVDV‐1e were detected for the first time in Brazil. This study revealed extensive genetic diversity among Brazilian pestivirus isolates, and the combination of pestiviruses that was detected is unique to Brazil. This information may serve as a foundation for designing and evaluating diagnostic tools and in the development of more effective vaccines; therefore, it may potentially contribute to pestivirus control and eradication.     

Identification and Epidemiology of a Rare HoBi‐Like Pestivirus Strain in Bangladesh

The genus pestivirus of the family flaviviridae consists of four recognized species: bovine viral diarrhoea virus 1 (BVDV‐1), bovine viral diarrhoea virus 2 (BVDV‐2), classical swine fever virus and border disease virus. A new putative pestivirus species tentatively named as either ‘HoBi‐like pestivirus’ or BVDV‐3 has recently been identified in Brazil, Italy and Thailand. Despite reports of serological evidence of BVDV in Bangladesh, the types of the virus circulating in cattle have not been identified. We conducted surveillance in cattle from May 2009 to August 2010 in three government veterinary hospitals to characterize BVDV in cattle of Bangladesh. We tested serum for BVDV using an antigen‐capture ELISA. Of 638 cattle samples, 3% (16/638) tested positive for BVDV antigen. The ELISA‐positive samples were selected for further molecular detection and characterization of BVDV. Molecular analysis of the partial 5′ untranslated region (UTR) nucleotide sequences of BVDV‐positive samples identified the rare HoBi‐like pestivirus or BVDV‐3 virus circulating in cattle of Bangladesh. The identification of this rare HoBi‐like pestivirus or BVDV‐3 strain in Bangladesh warrants further surveillance to evaluate its impact on livestock production.     

Detection of border disease virus in Mexican cattle

The genus Pestivirus within Flaviviridae is comprised of four recognized species, namely, bovine viral diarrhoea virus 1 (BVDV ‐1), bovine viral diarrhoea virus 2 (BVDV ‐2), border disease virus (BDV ) and classical swine fever virus (CSFV ). BDV , while primarily infecting sheep and goats, has also been reported in cattle and wild animals. Infections of sheep and goats result in economic loss due to abortions and the birth of persistently infected animals that have poor production and reduced life expectancy. In this study, we report the detection of BDV in cattle serum collected as part of pestivirus surveillance programme from six regions of Mexico, where a 67.1% of BVDV seroprevalence was calculated previously. Phylogenetic analyses based on comparison of the 5′UTR region typed the Mexican strains as BDV ‐1. Border disease (BD ) is listed as an exotic disease in Mexico, and the origin of BDV found in these cattle is unclear. This is the first identification of BDV in Mexican cattle.     

A novel Bluetongue virus serotype 3 strain in Tunisia,November 2016

Since 1998, southern Europe has experienced multiple incursions of different serotypes and topotypes of Bluetongue virus, a vector‐borne transmitted virus, the causative agent of Bluetongue (BT), a major disease of ruminants. Some of these incursions originated from northern Africa, likely because of wind‐blown dissemination of infected midges. In this report, we describe the detection and whole genome characterization of a novel BTV‐3 strain identified in a symptomatic sheep in Tunisia. Sequences were immediately deposited with the GenBank Database under Accession Nos KY432369‐KY432378. Alert and preparedness are requested to face the next vector seasons in northern Africa and the potential incursion of this novel strain in southern Europe.     

HoBi‐like is the most prevalent ruminant pestivirus in Northeastern Brazil

The ruminant pestiviral species BVDV ‐1, BVDV ‐2 and BDV , along with the putative species HoBi‐like, may cause substantial economic losses in cattle, sheep and goats. Brazil's large size, variable biomes and wide range of ruminant animal production within different geographic regions suggest that the presence and prevalence of ruminant pestivirus may differ by regions within Brazil. This study investigated the genetic diversity of ruminant pestiviruses and determined the frequency of active infections within two states of the Northeast Region of Brazil, Maranhão and Rio Grande do Norte. Serum samples from 16,621 cattle and 2,672 small ruminants from 569 different herds residing in this region were tested by RT ‐PCR followed by DNA sequencing. Seventeen positive cattle were detected (0.1%) from fifteen different herds (2.64%). All isolates were classified as HoBi‐like pestiviruses based on phylogenetic analysis. All small ruminant samples tested negative. The findings presented herein suggest that the Northeast Region of Brazil has a uniquely high prevalence of HoBi‐like viruses. The increasing reports of HoBi‐like viruses detected in cattle in the field suggest that natural infection with these viruses may be more widespread than previously thought. The identification of HoBi‐like viruses as the most prevalent type of ruminant pestivirus circulating in the Northeast Region of Brazil indicates the need for both continued monitoring and determination of the extent of economic losses associated with HoBi‐like virus infections. In addition, it must be taken into account in the choice of diagnostic tests and in vaccine formulations.     

Epidemiological factors and mitigation measures influencing production losses in cattle due to bovine viral diarrhoea virus infection: A meta‐analysis

Infection with bovine viral diarrhoea virus (BVDV) is associated with a loss in productivity in cattle farms. Determining which factors influence monetary losses due to BVDV could facilitate the implementation of mitigation measures to reduce the burden of BVDV. Mixed‐effect meta‐analysis models were performed to estimate the extent to which the costs of mean annual BVDV production losses per animal may be influenced by epidemiological factors such as BVDV introduction risk, initial prevalence, viral circulation intensity and circulation duration (trial 1). Additionally, changes in mean annual BVDV production losses per animal due to specific mitigation measures (i.e., biosecurity, vaccination, testing and culling, cattle introduction or contact with neighbouring cattle herds) were analysed (trial 2). In total, 19 studies were included in the meta‐analysis to assess mean annual BVDV production losses. The mean annual direct losses were determined to be €42.14 per animal (trial 1). The multivariate meta‐regression showed that four of the previously mentioned epidemiological factors significantly influenced the mean annual BVDV production losses per animal. Indeed, the per animal costs increased to €67.19 when these four factors (trial 1) were considered as “high or moderate” compared to “low”. The meta‐regression analysis revealed that implementation of vaccination and biosecurity measures were associated with an 8%–12% and 28%–29% decrease in BVDV production losses on average, respectively, when simulated herds were compared with or without such mitigation measures (trial 2). This reduction of mean annual BVDV production losses per animal due to mitigation measures was partially counteracted when farmers brought new cattle on to farm or allowed contact with neighbouring cattle herds. The influencing mitigation factors presented here could help to guide farmers in their decision to implement mitigation strategies for the control of BVDV at farm level.     

Experimental infection of sheep,goats and cattle with a bluetongue virus serotype 4 field strain from Bulgaria, 2014

In 2014, a new bluetongue virus serotype 4 (BTV ‐4) strain was detected in southern Greece and spread rapidly throughout the Balkan Peninsula and adjacent countries. Within half a year, more than 7,068 outbreaks were reported in ruminants, particularly in sheep. However, the reported morbidity and case fatality rates in ruminants varied. The pathogenesis of a Bulgarian BTV ‐4 strain isolated from sheep during the BTV ‐4 epizootic was studied in different species. Therefore, four sheep, three goats and three cattle were experimentally infected with the isolate BTV ‐4/BUL 2014/15 and monitored for clinical signs up to several weeks. Serum and whole‐blood samples were collected at regular intervals and subjected to serological and virological analyses. In this context, BTV ‐4‐specific real‐time RT ‐PCR assays were developed. The infection kinetics were similar to those known for other traditional BTV serotypes, and only mild BT ‐like clinical signs were observed in goats and sheep. In cattle, no obvious clinical signs were observed, except a transient increase in body temperature. The study results contrast with the severe clinical signs reported in sheep experimentally infected with an African BTV ‐4 strain and with the reports of BT ‐like clinical signs in a considerable proportion of different ruminant species infected with BTV ‐4 in the Balkan region and Italy. The discrepancies between the results of these animal trials and observations of BTV ‐4 infection in the field may be explained by the influence of various factors on the manifestation of BT disease, such as animal breed, fitness and virus strain, as described previously.     

Detection of influenza D virus in bovine respiratory disease samples,UK

Influenza D is a newly described virus of cattle, pigs and small ruminants first detected in North America during 2011. Cattle have been shown to be the main viral reservoir and mounting evidence indicates that infection with influenza D may contribute to the development of bovine respiratory disease. The virus has been detected across the United States, Europe and Asia. To date, influenza D has not been reported in the UK. During the winter and spring of 2017/2018, we performed molecular testing of cattle submitted for post‐mortem examination where respiratory disease signs were present. We detected influenza D virus in 8.7% of cases, often as the sole viral agent and always in conjunction with bacterial co‐infection with one or more agents. Viral RNA was present in both the upper and lower respiratory tract and pathological changes in lung tissues were observed alongside signs of concurrent bacterial infections. Sequencing of one UK isolate revealed that it is similar to viruses from the Republic of Ireland and Italy.     

Bluetongue Serotype 2 and 9 Modified Live Vaccine Viruses as Causative Agents of Abortion in Livestock: A Retrospective Analysis in Italy

The recent outbreak caused by Schmallenberg virus, which affected sheep, goats and cattle in Europe, highlighted the importance of having a robust surveillance plan capable of monitoring abortions and malformations in the livestock offspring. In this context, bluetongue viruses (BTVs) represented and represent one of the major threats to the European livestock industry. Aiming to improve the understanding on BTV cross placental transmission and serotype involvement, in this retrospective study foetal spleens and/or brains of 663 ovines, 429 bovines, 155 goats and 17 buffaloes were tested for the presence of BTV by virus isolation. BTV vaccine strains were isolated from 31 foetuses (2.4%; 95% CI: 1.7–3.4%): 24 (3.6%; 95% CI: 2.4–5.3%) from ovine foetal tissues; 6 (1.4%; 95% CI: 0.6–3.0%) from bovine foetal tissues and 1 (0.6%; 95% CI: 0.2–3.5%) from the spleen of a caprine foetus. All foetuses were from animals vaccinated with either BTV‐2 or BTV‐2, and BTV‐9 modified live vaccines (MLVs) produced by Onderstepoort Biological Products (OBP), South Africa. Among the 31 isolated vaccine strains, serotype 9 (n = 28) was more frequently isolated (P < 0.05) than serotype 2 (n = 3). In two cases infectious vaccine strains were found in the foetal tissues 2 months after the vaccine administration. Other pathogens known to be causative agents of abortion in ruminants were not detected nor isolated. This study demonstrates, for the first time, that BTV‐2 and BTV‐9 vaccine strains are able to cross the placental barrier of sheep, cattle and goats. BTV‐2 and BTV‐9 vaccine strains are able to infect foetuses and cause abortions or malformations depending on the period of pregnancy at the time of vaccination.     

Serological Screening Suggests Presence of Schmallenberg Virus in Cattle,Sheep and Goat in the Zambezia Province,Mozambique

Schmallenberg virus (SBV) is a novel Orthobunyavirus within the family Bunyaviridae belonging to the Simbu serogroup. Schmallenberg virus infects ruminants and has since its discovery in the autumn 2011 been detected/spread to large parts of Europe. Most bunyaviruses are arboviruses, and SBV has been detected in biting midges in different European countries, suggesting that they may play a role in the transmission of the virus. It is not known how SBV was introduced to Europe and if SBV is present in countries outside of Europe. Thus, in this study, we conducted a serological screening for SBV antibodies in cattle (no. 79), sheep (no. 145) and goat (no. 141) in the Zambezia Province in Mozambique during September 2013. The results show a high percentage of antibody‐positive animals. All farms tested had seropositive animals; cattle displayed the highest prevalence with 100% positive animals. Sheep and goat also displayed high number of positive animals with a 43–97% and 72–100% within‐herd seroprevalence, respectively. This initial serological screening suggests that SBV is present on the African continent. However, cross‐reactivity with other members of the Simbu serogroup cannot be ruled out, and further studies are needed to identify and characterize the virus responsible for the antibody‐positive results.     

Identification of Natural Infections in Sheep/Goats with HoBi‐like Pestiviruses in China

The natural infections of HoBi‐like pestiviruses in cattle have been reported in South America, Europe and Asia. In China, although the detections of HoBi‐like pestivirus have been reported, the epidemiological investigation was limited. From January 2014 to October 2015, several flocks of sheep/goats in Henan province in central China suffered respiratory diseases which were recovered slowly after antibiotics treatment. To test whether it is the HoBi‐like pestivirus caused this symptom, 49 serum samples and 22 nasal swabs were then collected for analysis by serology and RT‐PCR. Serological result revealed that prevalence of pestivirus in small ruminants was 12.2% (6/49) in central China. Sequence analysis of partial 5′‐UTR nucleotides of pestivirus‐positive samples suggested that HoBi‐like pestivirus might have circulated in sheep/goats of China for a period and have evolved into new genotype clusters. It is apparent that the study provides the molecular evidence of natural infections in goat/sheep species with HoBi‐like pestiviruses in China.     

Molecular characterization of Peste des petits ruminants viruses in the Marmara Region of Turkey

Recent outbreaks of Peste des petits ruminants (PPR) in the Marmara region of Turkey including the European part of Thrace is important due to its proximity to Europe (Greece and Bulgaria) and the potential threat of spread of PPR into mainland Europe. In order to investigate the circulation of PPRV in the region suspect clinical and necropsy samples were collected from domestic sheep (n = 211) in the Marmara region of Turkey between 2011 and 2012. PPR virus (PPRV) genome was detected in 10.4% (22 out of 211) of sheep samples by real‐time RT‐PCR, and PPR virus was isolated from lungs of two sheep that died from infection. Of the 22 positive samples nine were used for partial N‐gene amplification and sequencing. The phylogenetic analyses indicated that the virus belongs to lineage IV, the same lineage that is circulating in eastern and central part of Turkey since its first official report in 1999. In addition, samples from 100 cattle were collected to investigate potential subclinical circulation of PPRV. However all were found to be negative by real‐time RT‐PCR, and also in serological tests indicating the large ruminants were likely not exposed or infected with the virus. The impact of these findings on the potential threat of spread of PPR to Europe including the first PPR outbreak in Europe in Bulgaria on 23rd June 2018 is discussed.     

Molecular prevalence of Chlamydia and Chlamydia‐like bacteria in Tunisian domestic ruminant farms and their influencing risk factors

Chlamydia and Chlamydia ‐like bacteria are well known to infect several organisms and may cause a wide range of diseases, particularly in ruminants. To gain insight into the prevalence and diversity of these intracellular bacteria, we applied a pan‐Chlamydiales real‐time PCR to 1,134 veterinary samples taken from 130 Tunisian ruminant herds. The true adjusted animal population‐level prevalence was 12.9% in cattle, against 8.7% in sheep. In addition, the true adjusted herd‐level prevalence of Chlamydiae was 80% in cattle and 25.5% in sheep. Chlamydiales from three family‐level lineages were detected indicating a high biodiversity of Chlamydiales in ruminant herds. Our results showed that Parachlamydia acanthamoebae could be responsible for bovine and ovine chlamydiosis in central‐eastern Tunisia. Multivariable logistic regression analysis at the animal population level indicated that strata and digestive disorders variables were the important risk factors of bovine and ovine chlamydiosis. However, origin and age variables were found to be associated with bovine and ovine chlamydiosis, respectively. At the herd level, risk factors for Chlamydia positivity were as follows: abortion and herd size for cattle against breeding system, cleaning frequency, quarantine, use of disinfectant and floor type for sheep. Paying attention to these risk factors will help improvement of control programs against this harmful zoonotic disease.     

Post‐epidemic investigation of Schmallenberg virus in wild ruminants in Slovenia

Schmallenberg virus (SBV) is a vector‐borne virus belonging to the genus Orthobunyavirus within the Bunyaviridae family. SBV emerged in Europe in 2011 and was characterized by epidemics of abortions, stillbirths and congenital malformations in domestic ruminants. The first evidence of SBV infection in Slovenia was from an ELISA‐positive sample from a cow collected in August 2012; clinical manifestations of SBV disease in sheep and cattle were observed in 2013, with SBV RNA detected in samples collected from a total of 28 herds. A potential re‐emergence of SBV in Europe is predicted to occur when population‐level immunity declines. SBV is also capable of infecting several wild ruminant species, although clinical disease has not yet been described in these species. Data on SBV‐positive wild ruminants suggest that these species might be possible sources for the re‐emergence of SBV. The aim of this study was to investigate whether SBV was circulating among wild ruminants in Slovenia and whether these species can act as a virus reservoir. A total of 281 blood and spleen samples from wild ruminants, including roe deer, red deer, chamois and European mouflon, were collected during the 2017–2018 hunting season. Serum samples were tested for antibodies against SBV by ELISA; the overall seroprevalence was 18.1%. Seropositive samples were reported from all over the country in examined animal species from 1 to 15 years of age. Spleen samples from the seropositive animals and serum samples from the seronegative animals were tested for the presence of SBV RNA using real‐time RT‐PCR; all the samples tested negative. Based on the results of the seropositive animals, it was demonstrated that SBV was circulating in wild ruminant populations in Slovenia even after the epidemic, as almost half (23/51) of the seropositive animals were 1 or 2 years old.     

HoBi‐Like Virus RNA Detected in Foetuses Following Challenge of Pregnant Cows that had Previously Given Birth to Calves Persistently Infected with Bovine Viral Diarrhoea Virus

The ability of ruminant pestivirus including bovine viral diarrhoea virus (BVDV) and the related emerging pestivirus, HoBi‐like virus, to establish persistent infection (PI) following foetal infection is central to keeping these viruses in circulation. Non‐PI dams carrying BVDV PI calves develop high levels of immunity due constantly viral exposure. A study to determine whether the immunity developed following the generation of a BVDV PI is enough to prevent HoBi‐like virus infection of a subsequent foetus was performed. This study consisted of nine pregnant cows, four had birthed BVDV‐1 PI calves in a previous pregnancy, three cows had birthed BVDV‐2 PIs and two had birthed pestivirus negative calves. From this, six pregnant cows were challenged with HoBi‐like virus about day 85 of gestation (four BVDV‐1 and two BVDV‐2 cows) and three non‐challenged cows (negative control). At the day of challenge, the serum neutralizing titres against the homologous BVDV strains of the first inoculation ranged from 1148 to 5793. At day 6 post‐challenge, HoBi‐like RNA was detected in the serum of all four BVDV‐1 cows but not in the two BVDV‐2 cows. The foetuses harvested from five of the exposed dams (three BVDV‐1 and two BVDV‐2 cows) at day 30 post‐challenge were positive for HoBi‐like virus RNA. The sixth cow, BVDV‐1 cow #541, while pregnant at the time of exposure, had no foetus 30 days after exposure. Foetuses from HoBi‐like virus exposed dams were significantly smaller and lighter than control foetuses. HoBi‐like RNA was detected in samples of all challenged foetuses. The identification of viral RNA in the serum of 4 cows at day 6 post‐challenge, as well viral RNA detection in all foetuses 30 days post‐inoculation, indicates that the foetuses of dams with high antibodies titres against BVDV‐1 or BVDV‐2 would not be protected from challenge with a HoBi‐like virus.     

Cell‐Mediated Immune Response During Experimental Acute Infection with Bovine Viral Diarrhoea Virus: Evaluation of Blood Parameters

Acute infections with bovine viral diarrhoea virus (BVDV), a major pathogen of cattle, are often asymptomatic or produce only mild clinical symptoms. However, they may play an important role in the bovine respiratory disease complex by exerting a marked immunosuppressive effect, as a result of the death of the immunocompetent cell populations involved in controlling innate and adaptive immune responses, together with a marked reduction of both cytokine expression and co‐stimulatory molecule synthesis. Although experimental research and field studies have shown that acute BVDV infection enhances susceptibility to secondary infection, the precise mechanism involved in BVDV‐induced immunosuppression remains unclear. The present study is aimed at measuring a range of blood parameters in a single group of fourteen calves infected with non‐cytopathic BVDV‐1. Focus has been put on those related to the cell‐mediated immune response just as leucocyte populations and lymphocyte subpopulations, serum concentrations of cytokines (IL‐1β, TNF‐α, IFN‐γ, IL‐12, IL‐4 and IL‐10) and acute phase proteins [haptoglobin, serum amyloid A (SAA), fibrinogen and albumin], as well as BVDV‐specific antibodies and viremia. After non‐cytopathic BVDV‐1 infection, clinical signs intensity was never more than moderate coinciding with the presence of viremia and leucocyte and lymphocyte depletion. An early increase in TNF‐α, IFN‐γ and IL‐12 levels in contrast to IL‐1β was observed in line with a raise in haptoglobin and SAA levels on the latest days of the study. As regards IL‐4 levels, no evidence was found of any changes. However, a slight increase in IL‐10 was observed, matching up the TNF‐α decline during the acute phase response. These findings would help to increase our knowledge of the immune mechanisms involved in acute infection with non‐cytopathic BVDV‐1 strains, suggesting the existence of a clear tendency towards a type 1 immune response, thereby enhancing resistance against viral infections.     

Evaluation of bovine viral diarrhoea virus control strategies in dairy herds in Hokkaido,Japan, using stochastic modelling

Bovine viral diarrhoea virus (BVDV ) infection in cattle can result in growth retardation, reduced milk production, reproductive disorders and death. Persistently infected animals are the primary source of infection. In Hokkaido, Japan, all cattle entering shared pastures in summer are vaccinated before movement for disease control. Additionally, these cattle may be tested for BVDV and culled if positive. However, the effectiveness of this control strategy aiming to reduce the number of BVDV ‐infected animals has not been assessed. The aim of this study was to evaluate the effectiveness of various test‐and‐cull and/or vaccination strategies on BVDV control in dairy farms in two districts of Hokkaido, Nemuro and Hiyama. A stochastic model was developed to compare the different control strategies over a 10‐year period. The model was individual‐based and simulated disease dynamics both within and between herds. Parameters included in the model were obtained from the literature, the Hokkaido government and the Japanese Ministry of Agriculture, Forestry and Fisheries. Nine different scenarios were compared as follows: no control, test‐and‐cull strategies based on antigen testing of either calves or only cattle entering common pastures, vaccination of all adult cattle or only cattle entering shared pastures and combinations thereof. The results indicate that current strategies for BVDV control in Hokkaido slightly reduced the number of BVDV ‐infected animals; however, alternative strategies such as testing all calves and culling any positives or vaccinating all susceptible adult animals dramatically reduced those. To our knowledge, this is the first report regarding the comparison of the effectiveness between the current strategies in Hokkaido and the alternative strategies for BVDV control measures.     

Serological relationship between a novel ovine pestivirus and classical swine fever virus

The genus Pestivirus comprises globally distributed members of the family Flaviviridae, which cause severe losses in livestock. The most common species of the genus are bovine viral diarrhoea virus type 1 (BVDV‐1) and type 2 (BVDV‐2), classical swine fever virus (CSFV) and border disease virus (BDV). Recently, a novel ovine pestivirus was repeatedly detected in aborted lamb foetuses on a farm located in the Brescia Province (Italy). Complete genome characterization of this isolate showed that it was highly divergent from known pestivirus species and that it was genetically closely related to CSFV. The aim of this study was to determine the serological relatedness between the identified novel pestivirus and BVDV, BDV and CSFV selected strains for which homologous serum was available, by antigenic characterization performed using cross‐neutralization assays. The serological relatedness was expressed as the coefficient of antigenic similarity (R). Both field and specific antisera raised against the ovine pestivirus neutralized the CSFV reference strain Diepholz with titres significantly higher than those specific for the BDV and BVDV strains. Furthermore, the calculated R values clearly indicated that the novel ovine pestivirus is antigenically more related to CSFV than to ruminant pestiviruses, in agreement with the results of the genomic analysis. This would have severe consequences on CSFV serology in the event of a switch to porcine hosts with implications for CSFV surveillance and porcine health management.     

Hepatitis E virus in sheep in Italy

Hepatitis E virus (HEV) is the leading cause of human enterically transmitted viral hepatitis occurring around the world both as outbreaks and as sporadic cases. The accumulating literature indicates that domestic pigs and wild boars are the main reservoirs of genotype 3 and genotype 4 for human infections in industrialized countries. However, the recent identification of HEV from various animal species poses additional potential concerns for HEV zoonotic infection. In this study, the role of sheep as potential host of hepatitis E virus (HEV) was investigated. By screening 192 sheep from seven farms located in Abruzzo Region (Southern Italy), HEV‐specific antibodies were detected in the sera of 41 animals (21.3%) whilst the RNA of HEV, genotype 3, was detected in 20 faecal (10.4%) and three serum samples (1.6%). Upon sequence analyses of a partial ORF2 gene region of eight HEV positive samples, the sheep sequences all grouped together within HEV genotype 3 subtype c, being most closely related to HEV strains identified in goat and wild boar from Abruzzo. This is the first study that demonstrates, serologically and molecularly, the presence of HEV in sheep population in a European country.