Epigenetic Modifications of White Blood Cell DNA Caused by Transient Fetal Infection with Bovine Viral Diarrhea Virus.

Bovine viral diarrhea virus (BVDV) infections cause USD 1.5-2 billion in losses annually. Maternal BVDV after 150 days of gestation causes transient fetal infection (TI) in which the fetal immune response clears the virus. The impact of fetal TI BVDV infections on postnatal growth and white blood cell (WBC) methylome as an index of epigenetic modifications was examined by inoculating pregnant heifers with noncytopathic type 2 BVDV or media (sham-inoculated controls) on Day 175 of gestation to generate TI (n = 11) and control heifer calves (n = 12). Fetal infection in TI calves was confirmed by virus-neutralizing antibody titers at birth and control calves were seronegative. Both control and TI calves were negative for BVDV RNA in WBCs by RT-PCR. The mean weight of the TI calves was less than that of the controls (p < 0.05). DNA methyl seq analysis of WBC DNA demonstrated 2349 differentially methylated cytosines (p ≤ 0.05) including 1277 hypomethylated cytosines, 1072 hypermethylated cytosines, 84 differentially methylated regions based on CpGs in promoters, and 89 DMRs in islands of TI WBC DNA compared to controls. Fetal BVDV infection during late gestation resulted in epigenomic modifications predicted to affect fetal development and immune pathways, suggesting potential consequences for postnatal growth and health of TI cattle.

Uncommon bovine viral diarrhea virus subtype 1e associated with abortions in cattle in southern Brazil.

We characterized bovine viral diarrhea virus (BVDV)-related abortions in cattle and identified the species and subgenotypes in the state of Santa Catarina, southern Brazil. Our RT-PCR assay was positive for BVDV in 5 fetuses from different farms; however, 3 of the 5 fetuses were also PCR-positive for Neospora caninum. In the 5 BVDV-positive fetuses, gross lesions included fetal mummification (1), hepatomegaly (1), subcutaneous edema (1), and perirenal edema (1). Predominant histologic lesions included epicarditis and mild-to-moderate lymphoplasmacytic myocarditis (5), mild multifocal lymphoplasmacytic interlobular pneumonia (4), nephrosis associated with moderate multifocal interstitial nephritis (1), moderate multifocal lymphoplasmacytic necrotic hepatitis (1), and mild multifocal lymphoplasmacytic meningitis (1). The amplification products from the Pestivirus 5'UTR region of 4 of the 5 fetuses had 96.3-100% similarity between fetal strains and reference strains. The samples were distributed into 2 branches of the phylogenetic tree; strains UDESC:01, UDESC:02, and UDESC:05 clustered in the BVDV-1e branch, uncommon in the Americas, and strain UDESC:04 clustered in the BVDV-2b branch. The three 1e strains had 96.9-97.4% similarity.

Novel genomic targets for proper subtyping of bovine viral diarrhea virus 1 (BVDV-1) and BVDV-2.

Whole-genome phylogenetic analysis, the most suitable strategy for subtyping bovine viral diarrhea virus 1 (BVDV-1) and BVDV-2, is not feasible for many laboratories. Consequently, BVDV isolates/strains have been frequently subtyped based on analysis of single genomic regions, mainly the 5' untranslated region (UTR). This approach, however, may lead to inaccurate and/or poorly statistically supported viral classification. Herein, we describe novel primer sets whose amplicons may be easily sequenced and used for BVDV subtyping. Initially, genomic regions previously described as the most suitable targets for BVDV subtyping were analyzed for design of high-coverage primers. The putative amplicons were analyzed in silico for their suitability to reproduce the phylogenetic classification of 118 BVDV-1 and 88 BVDV-2 complete/near-complete genomes (CNCGs) (GenBank). This analysis was also performed considering the region amplifiable by primers HCV90-368, 324-326 and BP189-389 (5'UTR), which have been used for BVDV diagnosis and/or classification. After confirming the agreement between the analyses of our primers' amplicon versus the CNCGs, we optimized the RT-PCRs and evaluated their performance for amplification of BVDV isolates/strains (n = 35 for BVDV-1; n = 33 for BVDV-2). Among the potential targets for BVDV subtyping, we designed high-coverage primers for NS3-NS4A (BVDV-1) (526 bp amplicon) and NS5B (BVDV-2) (728 bp). The classification based on these regions fully reproduced the subtyping of all CNCGs. On the other hand, subtyping based on the putative amplicons from primers HCV90-368, 324-326 and BP189-389 showed disagreements in relation the CNCG analysis. The NS3-NS4A and NS5B primers also allowed the amplification of all BVDV isolates/strains tested. Finally, we suggest the use of these primers in future phylogenetic and epidemiological studies of BVDVs.

HoBi-like Pestivirus Is Highly Prevalent in Cattle Herds in the Amazon Region (Northern Brazil).

Pestiviruses are globally distributed and cause substantial economic losses to the cattle industry. In Brazil, the country with the world's largest cattle population, pestivirus infections are well described in some regions, such as in the south, where a high frequency of BVDV-2 is described and contrasts with the high prevalence of HoBi-like pestivirus (HoBiPeV) in the northeast. However, there is a lack of information about pestiviruses in the Amazon Region, in northern Brazil, with a cattle population estimated at 55.7 million head, which has a significant impact on the international livestock market. Therefore, this study investigated the seroprevalence and genetic variability of ruminant pestiviruses in 944 bovine serum samples from four states in northern Brazil: Pará (PA), Amapá (AP), Roraima (RR), and Amazonas (AM). Our results showed that 45.4% of the samples were seropositive (19.8% for BVDV-1, 14.1% for BVDV-2, and 20.9% for HoBiPeV). All samples were tested by RT-qPCR, and three were positive and classified as HoBiPeV in a phylogenetic analysis. These serological and molecular results contrast with those from other regions of the world, suggesting that the northern Brazilian states have a high prevalence of all bovine pestiviruses including HoBiPeV.

bta-miR-2904 inhibits bovine viral diarrhea virus replication by targeting viral-infection-induced autophagy via ATG13.

MicroRNAs (miRNAs) are endogenous small and noncoding RNA molecules (18-25 nt) that can regulate expression of their target genes post-transcriptionally. Previously, using high-throughput sequencing data obtained on a Solexa platform, we found that Bos taurus bta-miR-2904 (miR-2904) was significantly upregulated in Madin-Darby bovine kidney (MDBK) cells infected with bovine viral diarrhea virus (BVDV) strain NADL at 2, 6, and 18 h postinfection (hpi) compared to uninfected MDBK cells. Moreover, miR-2904 overexpression significantly reduced BVDV replication. However, the mechanism by which miR-2904 inhibits viral replication remains unclear. In this study, we used electron microscopy, laser confocal microscopy, dual-luciferase reporter analysis, real-time PCR, and Western blot assays to investigate the effect of the miR-2904 expression on BVDV NADL replication and virus-infection-induced autophagy. The results indicate that miR-2904 inhibits autophagy of MDBK cells by targeting autophagy-related gene 13 (ATG13), and overexpression of miR-2904 inhibited the replication of BVDV NADL.

A new (old) bovine viral diarrhea virus 2 subtype: BVDV-2e.

Bovine pestiviruses are members of the species Pestivirus A (bovine viral diarrhea virus 1, BVDV-1), Pestivirus B (BVDV-2) or Pestivirus H (HoBiPeV). To date, BVDV-2 isolates/strains have been classified into three subtypes (a-c) by phylogenetic analysis, and an additional subtype (d) has been proposed based on 5' untranslated region (UTR) secondary structures. In a previous study, we identified some BVDV-2 sequences in the GenBank database that could not be classified as subtype a, b or c by phylogenetic analysis of their genomes, UTRs or individual genes. Here, we performed a detailed study of these sequences and assessed whether they might represent a distinct BVDV-2 subtype. Initially, we collected 85 BVDV-2 complete/near-complete genomes (CNCGs) from GenBank and performed a "proof of equivalence" between phylogenetic analyses based on CNCGs and open reading frames (ORFs), which showed that ORFs may be reliably used as a reference target for BVDV-2 phylogeny, allowing us to increase our dataset to 139 sequences. Among these, we found seven sequences that could not be classified as BVDV-2a-c. The same was observed in the phylogenetic analysis of CNCGs and viral genes. In addition, the seven non-BVDV-2a-c sequences formed a distinct cluster in all phylogenetic trees, which we propose to term BVDV-2e. BVDV-2e also showed 44 amino acid changes compared to BVDV-2a-c, 20 of which are in well-defined positions. Importantly, an additional phylogenetic analysis including BVDV-2d and a pairwise comparison of BVDV-2e and BVDV-2d sequences also supported the difference between these subtypes. Finally, we propose the recognition of BVDV-2e as a distinct BVDV-2 subtype and encourage its inclusion in future phylogenetic analyses to understand its distribution and evolution.

Research advances on interferon (IFN) response during BVDV infection.

Bovine viral diarrhea virus (BVDV) is an important pathogen responsible for significant economic loss to cattle. BVDV infection in pregnant cattle leads to fetal infection and reproductive losses, including early embryonic death, abortion, and stillbirth. Importantly, vaccinated heifers could not provide fetal protection against BVDV. It can be divided into two genotypes (BVDV-1 and BVDV-2) and two biotypes (cytopathic (CP) and non-cytopathic (NCP)). Infection with NCP-BVDV during gestation, the fetus becomes persistently infected (PI) and sheds BVDV throughout life, serving as the main source of infection for other cattle. BVDV potentially induces immunosuppression and aggravates bovine respiratory disease (BRD). Accordingly, BVDV infection results in a heterogeneous range of clinical signs and immune responses. Interferon (IFN) plays a vital role by mediating the innate immune response against antiviral infection through the Janus Kinase (JAK)-signal transducer and activator of transcription (STAT) pathway. BVDV infection can reportedly exert variable degrees of influence on IFN response. Interestingly, reports have suggested that IFN can exert a significant inhibitory effect on various viruses. Human IFN-α was used to restrain BVDV in vitro. In this article, we summarized the latest researches on IFN response during BVDV infection.

Use of multivariate analysis to evaluate antigenic relationships between US BVDV vaccine strains and non-US genetically divergent isolates.

Bovine viral diarrhea virus (BVDV) comprises two species, BVDV-1 and BVDV-2. But given the genetic diversity among pestiviruses, at least 22 subgenotypes are described for BVDV-1 and 3-4 for BVDV-2. Genetic characterization is generally accomplished through complete or partial sequencing and phylogeny, but it is not a reliable method to define antigenic relationships. The traditional method for evaluating antigenic relationships between pestivirus isolates is the virus neutralization (VN) assay, but interpretation of the data to define antigenic relatedness can be difficult to discern for BVDV isolates within the same BVDV species. Data from this study utilized a multivariate analysis for visualization of VN results to analyze the antigenic relationships between US vaccine strains and field isolates from Switzerland, Italy, Brazil, and the UK. Polyclonal sera were generated against six BVDV strains currently contained in vaccine formulations, and each serum was used in VNs to measure the titers against seven vaccine strains (including the six homologous strains) and 23 BVDV field isolates. Principal component analysis (PCA) was performed using VN titers, and results were interpreted from PCA clustering within the PCA dendrogram and scatter plot. The results demonstrated clustering patterns among various isolates suggesting antigenic relatedness. As expected, the BVDV-1 and BVDV-2 isolates did not cluster together and had the greatest spatial distribution. Notably, a number of clusters representing antigenically related BVDV-1 subgroups contain isolates of different subgenotypes. The multivariate analysis may be a method to better characterize antigenic relationships among BVDV isolates that belong to the same BVDV species and do not have distinct antigenic differences. This might be an invaluable tool to ameliorate the composition of current vaccines, which might well be important for the success of any BVDV control program that includes vaccination in its scheme.

An Importance of Long-Term Clinical Analysis to Accurately Diagnose Calves Persistently and Acutely Infected by Bovine Viral Diarrhea Virus 2.

Bovine viral diarrhea virus (BVDV) infection results in a wide variety of clinical manifestations and is a pathogen that is able to cause huge economic losses in the cattle industry worldwide. It is important to identify cattle that are persistently infected (PI) by BVDV within the herd as early as possible because PI animals are the main reservoir of the virus. In contrast, cattle who are acutely infected (AI) with BVDV show various clinical signs, but most cattle show either mild symptoms or are asymptomatic. In general, AI and PI animals can be distinguished by repeat testing within an interval of at least 21 days. However, we found a rare case of a BVDV2-infected AI animal with long-term viral presence, making it indistinguishable from PI through two tests within an interval of 21 days. As a result, we diagnosed one infected animal as AI after 35 days from the initial sample collection via multiple analyses. Our findings recommend performing an additional test using samples that have been collected after 14-21 days from the second sample collection in cases where it is difficult to accurately differentiate an AI diagnosis from a PI diagnosis after only two tests. Additionally, our analysis exhibits that monitoring the number of copies of viruses with similar genomes in the sera by means of quantitative real-time RT-PCR through several sample collections periods might be useful to distinguish AI from PI. Furthermore, our data suggest that the AI animals with a long-term viral presence who show test results similar to those of PI animals might be the result of a coincidental combination of various factors that are present in cattle fields. These findings provide useful information that can be used to improve the diagnosis of BVDV in the field.

Genomic diversity and phylodynamic of bovine viral diarrhea virus in Argentina.

Bovine viral diarrhea virus (BVDV) is an important pathogen of ruminants worldwide and is characterized by high genetic diversity and a wide range of clinical presentations. In Argentina, several studies have evaluated the genetic diversity of BVDV but no phylodynamic study has been published yet. In this study, a comprehensive compilation and update of Argentinean BVDV sequences were performed, and the evolutionary history of BVDV was characterized by phylodynamic analyses based on the 5´UTR. Although BVDV-1b and BVDV-1a were the most frequent subtypes, novel subtypes for Argentina, 1e and 1i, were identified. The phylodynamic analysis suggested that BVDV started its diversification in the mid-1650s with an exponential increase in viral diversity since the late 1990s, possibly related to the livestock expansion and intensification in the country. Evolutionary rate in the 5´UTR was faster for BVDV-1a than for BVDV-1b, and both subtypes presented an endemic nature according to the demographic reconstructions. The current study contributes to clarify the evolutionary history of BVDV in the main cattle region of the country and provides useful information about the epidemiology and future development of diagnostic and control tools in Argentina.

Cattle connection: molecular epidemiology of BVDV outbreaks via rapid nanopore whole-genome sequencing of clinical samples.

BACKGROUND: As a global ruminant pathogen, bovine viral diarrhea virus (BVDV) is responsible for the disease Bovine Viral Diarrhea with a variety of clinical presentations and severe economic losses worldwide. Classified within the Pestivirus genus, the species Pestivirus A and B (syn. BVDV-1, BVDV-2) are genetically differentiated into 21 BVDV-1 and four BVDV-2 subtypes. Commonly, the 5' untranslated region and the Npro protein are utilized for subtyping. However, the genetic variability of BVDV leads to limitations in former studies analyzing genome fragments in comparison to a full-genome evaluation. RESULTS: To enable rapid and accessible whole-genome sequencing of both BVDV-1 and BVDV-2 strains, nanopore sequencing of twelve representative BVDV samples was performed on amplicons derived through a tiling PCR procedure. Covering a multitude of subtypes (1b, 1d, 1f, 2a, 2c), sample matrices (plasma, EDTA blood and ear notch), viral loads (Cq-values 19-32) and species (cattle and sheep), ten of the twelve samples produced whole genomes, with two low titre samples presenting 96 % genome coverage. CONCLUSIONS: Further phylogenetic analysis of the novel sequences emphasizes the necessity of whole-genome sequencing to identify novel strains and supplement lacking sequence information in public repositories. The proposed amplicon-based sequencing protocol allows rapid, inexpensive and accessible obtainment of complete BVDV genomes.

The identification of a B-cell epitope in bovine viral diarrhea virus (BVDV) core protein based on a mimotope obtained from a phage-displayed peptide library.

Bovine pestivirus A and B, previously known as bovine viral diarrhea virus (BVDV)-1 and 2, respectively, are important pathogens of cattle worldwide, which causes significant economic losses. B-cell epitopes in BVDV glycoprotein E2 and nonstructural protein NS2/3 have been extensively identified. In this study, we screened a 12-mer phage display peptide library using commercial goat anti-BVDV serum, and identified a mimotope "LTPHKHHKHLHA" referred to as P3. With sequence alignment, a putative B-cell epitope "77ESRKKLEKALLA88" termed as P3-BVDV1/2 residing in BVDV core protein was identified. The synthesized peptides of both P3 and P3-BVDV1/2 show strong reactivity with BVDV serum in immune blot assay. Immunization of mice with these individual peptides leads to the production of antibody that cannot neutralize virus infectivity. Thus for the first time we identified a B-cell epitope, "77ESRKKLEKALLA88", in BVDV core protein. Interestingly, the epitope was highly conserved in Pestivirus A, B, C, D, as well as emerging Pestivirus E and I, but highly variable in Pestiviruses H, G, F, and J, as well as unclassified Pestivirus originated from non-ruminant animals. Whether this putative B-cell epitope is implicated in pestivirus pathogenesis or evolution needs further investigations once large numbers of isolates are available in the future.

Detection and genotyping of bovine viral diarrhea virus found contaminating commercial veterinary vaccines, cell lines, and fetal bovine serum lots originating in Mexico.

In this communication, we report the presence of RNA of bovine viral diarrhea virus (BVDV) as a contaminant of different biological products used in Mexico for veterinary vaccine production. For this purpose, six batches of monovalent vaccines, eight cell line batches used for vaccine production, and 10 fetal bovine serum lots (FBS) commercially available in Mexico from different suppliers were tested by reverse transcription polymerase chain reaction (RT-PCR). Viral RNA was detected in 62.5% of the samples analyzed. Phylogenetic analysis revealed the presence of the subgenotypes BVDV-1a, 1b, and BVDV-2a in the tested samples. Collectively, these findings indicate that contamination by BVDV RNA occurs in commercial vaccines and reagents used in research and production of biological products. The ramifications of this contamination are discussed.

Subtyping bovine viral diarrhea virus (BVDV): Which viral gene to choose?

Bovine viral diarrhea virus-1 (BVDV-1, Pestivirus A) and BVDV-2 (Pestivirus B) have been clustered into 21 and 4 subtypes, respectively. This genetic diversity, in addition to the lack of consensus on which genomic region to use for BVDV subtyping, has resulted in conflicting classifications depending on the target analyzed. Here, we investigated which genes or UTRs would reproduce the phylogeny obtained by complete genome (CG) analyses. The study was carried out with 91 (BVDV-1) and 85 (BVDV-2) CG available on GenBank database. The viruses were subtyped by analyzing their CG, as well as their individual genes and UTRs (complete 3' and 5'UTRs, and partial 5'UTR); and the phylogeny results were compared to each other. The sequences were aligned using the ClustalW multiple method (BioEdit Alignment Editor software, v.7.0.5.3) and the phylogenetic analyses were performed by the Maximum Likelihood method (MEGA-X software, v.10.2.4), with 1000 bootstrap replicates. The best analysis model for each gene/UTR was defined using the jModelTest software. The geodesic distance between the CG (reference) and individual genes/UTRs trees was also calculated (TreeCmp software, v.2.0). In general, 3'UTR-based analyses, followed by 5'UTR, presented the least reliable subtyping results. Regarding BVDV-1, phylogeny based on C, Erns, E1, E2, p7, NS2, NS3, NS4B, NS5A and NS5B was consistent with that of CG. In contrast, analyses performed with individual BVDV-2 genes showed at least one different clustering from the phylogeny based on the CG. After analyzing the geodesic distance between the CG and genes/UTRs trees, we observed that NS4B (for BVDV-1) and NS5A (BVDV-2) presented the closest topology and edge length to the CG analyses. Finally, comparing the phylogeny performed with the CG and the genes/UTRs, as well as the geodesic distance between them, we understand that NS4B and NS5A represent the most suitable targets for BVDV-1 and -2 subtyping, respectively, and may be considered in future phylogenetic studies.

Clinical Analysis for Long-Term Sporadic Bovine Viral Diarrhea Transmitted by Calves with an Acute Infection of Bovine Viral Diarrhea Virus 2.

Bovine viral diarrhea virus (BVDV) is a viral pathogen associated with serious problems in the cattle industry. Cattle persistently infected (PI) with BVDV are mild or asymptomatic; however, they become a source of BVDV transmission to other cattle. Hence, it is important to rapidly identify and remove the PI animals from cattle herds. Whereas cattle acutely infected (AI) with BVDV have various symptoms, yet they generally recover within 3 weeks. However, there is a paucity of information concerning clinical characteristics of AI cattle. Further accumulation of information would be required to accurately diagnose AI cattle with BVDV. Here, we attempted to obtain valuable information via various analyses using a case report of BVD outbreak that occurred for approximately four months in Iwate Prefecture in 2017. Using eight calves and multiple tests (real-time RT-PCR, virus isolation, enzyme-linked immunosorbent assay, and virus neutralization assay) over 6 weeks, we diagnosed the continuous BVD outbreak as an acute infection and not a persistent one. Additionally, we revealed that the sporadic case was caused by low pathogenic BVDV2 via BVDV genotyping and phylogenetic analysis. The data suggest that BVDV2 AI animals might also be a source of transmission to susceptible calves; hence, it might persist for a long period owing to multiple AI animals. These findings provide useful information to diagnose AI and PI cattle with BVDV in the field.

A CRISPR/Cas9 Generated Bovine CD46-knockout Cell Line-A Tool to Elucidate the Adaptability of Bovine Viral Diarrhea Viruses (BVDV).

Bovine viral diarrhea virus (BVDV) entry into a host cell is mediated by the interaction of the viral glycoprotein E2 with the cellular transmembrane CD46 receptor. In this study, we generated a stable Madin-Darby Bovine Kidney (MDBK) CD46-knockout cell line to study the ability of different pestivirus A and B species (BVDV-1 and -2) to escape CD46-dependent cell entry. Four different BVDV-1/2 isolates showed a clearly reduced infection rate after inoculation of the knockout cells. However, after further passaging starting from the remaining virus foci on the knockout cell line, all tested virus isolates were able to escape CD46-dependency and grew despite the lack of the entry receptor. Whole-genome sequencing of the escape-isolates suggests that the genetic basis for the observed shift in infectivity is an amino acid substitution of an uncharged (glycine/asparagine) for a charged amino acid (arginine/lysine) at position 479 in the ERNS in three of the four isolates tested. In the fourth isolate, the exchange of a cysteine at position 441 in the ERNS resulted in a loss of ERNS dimerization that is likely to influence viral cell-to-cell spread. In general, the CD46-knockout cell line is a useful tool to analyze the role of CD46 for pestivirus replication and the virus-receptor interaction.

Multivariate analysis as a method to evaluate antigenic relationships between BVDV vaccine and field strains.

Bovine viral diarrhea virus (BVDV) is comprised of two species, BVDV-1 and BVDV-2, but given the genetic diversity among pestiviruses, at least 21 subgenotypes are described for BVDV-1 and 4 for BVDV-2. Genetic characterization can be achieved through complete or partial sequencing and phylogeny, but antigenic characterization can be difficult to determine due to the antigenic diversity and cross-neutralization that exists among isolates. The traditional method for evaluating antigenic relationships between pestivirus isolates is the virus neutralization (VN) assay, but interpretation of the data to determine antigenic difference can be unclear. Data from this study utilized a multivariate analysis for visualization of VN results to analyze the antigenic relationships between vaccine strains and multiple field isolates. Polyclonal sera were generated against 6 BVDV strains currently contained in vaccine formulations, and each serum was used in VN's to measure the neutralizing antibody titers against 15 BVDV field isolates characterized as prevalent and divergent subgenotypes in the USA. Principal component analysis (PCA) were performed on the VN assay datasets, and results were interpreted from PCA clustering within the PCA dendrogram and scatter plot. The results demonstrated clustering patterns among isolates suggestive of antigenic differences. While expected, the BVDV-1 and BVDV-2 isolates did not cluster together and had the greatest spatial distribution. In addition, other BVDV isolates had distinct spatial patterns suggesting antigenically divergent isolates. This analysis provides an alternative and more efficient means to analyze large VN datasets to visualize antigenic relationships between pestivirus isolates. This analysis could be beneficial for vaccine development and evaluation of efficacy, since most vaccines cannot fully protect animals from the broad range diversity of BVDV viruses.

Identification and characterization of pestiviruses isolated from individual fetal bovine serum samples originated in Rio Grande do Sul state, Brazil / Identificação e caracterização de pestivírus isolados de amostras individuais de soro fetal bovino originárias do Rio Grande do Sul, Brasil

The identification of diversity of bovine pestiviruses circulating in the field is fundamental for continuous evaluation of diagnostic tests and vaccine composition. In this article we performed the genetic and antigenic characterization of twelve bovine pestiviruses isolated in the western region of Rio Grande do Sul, Brazil. The viruses were isolated from sera of bovine fetuses or from animals with clinical presentations suggestive of pestivirus infection. Genetic characterization by sequencing and phylogenetic analysis of the 5'UTR region of the viral genome allowed for the identification of bovine viral diarrhea virus (BVDV-1a, 4/12, 33.3%), BVDV-1b (6/12, 50%) and BVDV-2 (2/12, 16.7%). The reactivity of the isolates with a panel of monoclonal antibodies raised against envelope proteins (Erns, E1 and E2) demonstrated a high antigenic variability among isolates. Thus, the active circulation of bovine pestivirus infection, with high genetic and antigenic variability, in cattle on the western border of RS was confirmed, demonstrating the importance of continuous characterization of the pestiviruses circulating in the cattle herds to keep the diagnostic and control measures up to date.(AU)

A identificação da diversidade de pestivírus bovinos que circulam no campo é fundamental para a avaliação contínua dos testes de diagnóstico e composição de vacina. Neste artigo, realizamos a caracterização genética e antigênica de doze pestivírus bovinos isolados na região oeste do Rio Grande do Sul, Brasil. Os vírus foram isolados de soros de fetos bovinos ou de animais com apresentações clínicas sugestivas de infecção por pestivírus. A caracterização genética por sequenciamento e análise filogenética da região 5'UTR do genoma viral permitiu a identificação do vírus da diarréia viral bovina (BVDV-1a, 4/12, 33,3%), BVDV-1b (6/12, 50%) e BVDV-2 (2/12, 16,7%). A reatividade dos isolados com um painel de anticorpos monoclonais criados contra proteínas do envelope (Erns, E1 e E2) demonstrou uma alta variabilidade antigênica entre os isolados. Assim, confirmou-se a circulação ativa da infecção por pestivírus bovino, com alta variabilidade genética e antigênica, em bovinos na fronteira oeste do RS, demonstrando a importância da contínua caracterização dos pestivírus circulantes em bovinos para manter atualizadas as medidas de diagnóstico e controle.(AU)

Attenuated porcine-derived type 2 bovine viral diarrhea virus as vector stably expressing viral gene.

Infectious bovine viral diarrhea virus (BVDV) cDNA clones have been used for the expression of classical swine fever virus (CSFV) genes for immune prevention and control. However, can it be used for the expression of an allogenetic fragment? To answer this question, a BVDV chimeric virus expressing the spike (S) antigen fragment of porcine epidemic diarrhea virus (PEDV) was constructed. Antigen S499-602 was inserted into pig-derived BVDV-2 infectious cDNA clone pASH28 in tandem by overlapping PCR, located between the seventh and eighth amino acids at the N-terminus of the capsid (C) protein of BVDV. Indirect immunofluorescence assay confirmed that the chimeric virus vASH-dS312 containing double S499-602 sequences was successfully assembled, which could react with the monoclonal antibody (MAb) against BVDV E2 and PEDV S proteins. Further western blot analysis confirmed that the exogenous S499-602 double protein could be stably expressed. Next, the chimeric virus vASH-dS312 was administered to BALB/C mice either orally or by intramuscular injection. The immunized mice were healthy and showed no signs of toxicity. IgG against BVDV and PEDV antibodies could be detected in the mice administered vASH-dS312 by intramuscular injection, which had neutralization activity against BVDV and PEDV. Thus, this study reported a new insertion site in the BVDV infectious cDNA clone that could successfully express an allogenetic antigen.

No effects of noncytopathic bovine viral diarrhea virus type 2 on the reproductive tract of experimentally inoculated boars.

Bovine viral diarrhea virus (BVDV) infections in pigs may result in transient leukopenia, chronic gastroenteritis, septicemia, and hemorrhagic lesions. Both classical swine fever virus (CSF) and the atypical porcine pestivirus (APPV) are shed in the semen of infected boars. Because these viruses share conserved regions and present antigenic similarity, they may not be the only species belonging to the genus Pestivirus that can be shed in the semen of infected pigs. The objective of this study was to evaluate the testicular and epididymal changes, seminal parameters, and viral shedding in the reproductive tract of boars experimentally inoculated with noncytopathic BVDV-2. Six males were selected, and samples of blood, semen, and preputial swabs were collected every four days until the 52nd day after inoculation. The samples were tested for the presence of viral RNA by RT-PCR. An aliquot of whole blood was used to perform hematological analyses, which showed a significant reduction in monocyte counts and a significant increase in lymphocyte counts when comparing the pre- and postinoculation periods. The neutralizing antibody titers were determined by the virus neutralization test. None of the animals presented clinical signs or worsening of the seminal parameters that were evaluated. Moreover, BVDV-2 shedding by the reproductive route was not observed.