scholarly journals Effectiveness of the E2-Classical Swine Fever Virus Recombinant Vaccine Produced and Formulated within Whey from Genetically Transformed Goats

2014 ◽  
Vol 21 (12) ◽  
pp. 1628-1634 ◽  
Author(s):  
O. Sánchez ◽  
M. Barrera ◽  
O. Farnós ◽  
N. C. Parra ◽  
E. R. Salgado ◽  
...  
Keyword(s):  
Classical Swine Fever Virus ◽  
Neutralizing Antibodies ◽  
Adverse Reactions ◽  
Clinical Signs ◽  
Classical Swine Fever ◽  
Fever Virus ◽  
Minor Amount ◽  
Lethal Challenge ◽  
Promising Alternative ◽  
A Minor

ABSTRACTSubunit recombinant vaccines against classical swine fever virus (CSFV) are a promising alternative to overcome practical and biosafety issues with inactivated vaccines. One of the strategies in evaluation under field conditions is the use of a new marker E2-based vaccine produced in the milk of adenovirally transduced goats. Previously we had demonstrated the efficacy of this antigen, which conferred early protection and long-lasting immunity in swine against CSFV infection. Here, we have used a simpler downstream process to obtain and formulate the recombinant E2 glycoprotein expressed in the mammary gland. The expression levels reached approximately 1.7 mg/ml, and instead of chromatographic separation of the antigen, we utilized a clarification process that eliminates the fat content, retains a minor amount of caseins, and includes an adenoviral inactivation step that improves the biosafety of the final formulation. In a vaccination and challenge experiment in swine, different doses of the E2 antigen contained within the clarified whey generated an effective immune response of neutralizing antibodies that protected all of the animals against a lethal challenge with CSFV. During the immunization and after challenge, the swine were monitored for adverse reactions related to the vaccine or symptoms of CSF, respectively. No adverse reactions or clinical signs of disease were observed in vaccinated animals, in which no replication of CSFV could be detected after challenge. Overall, we consider that the simplicity of the procedures proposed here is a further step toward the introduction and implementation of a commercial subunit vaccine against CSF.

scholarly journals Generation and Efficacy Evaluation of a Recombinant Pseudorabies Virus Variant Expressing the E2 Protein of Classical Swine Fever Virus in Pigs

2015 ◽  
Vol 22 (10) ◽  
pp. 1121-1129 ◽  
Author(s):  
Yimin Wang ◽  
Jin Yuan ◽  
Xin Cong ◽  
Hua-Yang Qin ◽  
Chun-Hua Wang ◽  
...  
Keyword(s):  
Infectious Disease ◽  
Classical Swine Fever Virus ◽  
Neutralizing Antibodies ◽  
Pseudorabies Virus ◽  
Classical Swine Fever ◽  
Fever Virus ◽  
Complete Protection ◽  
Efficacy Evaluation ◽  
Lethal Challenge ◽  
Recombinant Pseudorabies Virus

ABSTRACTClassical swine fever (CSF) is an economically important infectious disease of pigs caused by classical swine fever virus (CSFV). Pseudorabies (PR), which is caused by pseudorabies virus (PRV), is another important infectious disease of pigs and other animals. Coinfections of pigs with PRV and CSFV occur occasionally in the field. The modified live vaccine Bartha-K61 strain has played an important role in the control of PR in many countries, including China. Since late 2011, however, increasing PR outbreaks caused by an emerging PRV variant have been reported in Bartha-K61-vaccinated swine populations on many farms in China. Previously, we generated a gE/gI-deleted PRV (rPRVTJ-delgE) based on this PRV variant, which was shown to be safe and can provide rapid and complete protection against lethal challenge with the PRV variant in pigs. Here, we generated a new recombinant PRV variant expressing the E2 gene of CSFV (rPRVTJ-delgE/gI-E2) and evaluated its immunogenicity and efficacy in pigs. The results showed that rPRVTJ-delgE/gI-E2 was safe for pigs, induced detectable anti-PRV and anti-CSFV neutralizing antibodies, and provided complete protection against the lethal challenge with either the PRV TJ strain or the CSFV Shimen strain. The data indicate that rPRVTJ-delgE/gI-E2 is a promising candidate bivalent vaccine against PRV and CSFV coinfections.

scholarly journals A Novel E2 Glycoprotein Subunit Marker Vaccine Produced in Plant Is Able to Prevent Classical Swine Fever Virus Vertical Transmission after Double Vaccination

Vaccines ◽  
2021 ◽  
Vol 9 (5) ◽  
pp. 418
Author(s):  
Youngmin Park ◽  
Yeonsu Oh ◽  
Miaomiao Wang ◽  
Llilianne Ganges ◽  
José Alejandro Bohórquez ◽  
...  
Keyword(s):  
Vertical Transmission ◽  
Classical Swine Fever Virus ◽  
Neutralizing Antibodies ◽  
Subunit Vaccine ◽  
Vaccine Dose ◽  
Classical Swine Fever ◽  
Fever Virus ◽  
Tissue Samples ◽  
Marker Vaccine ◽  
E2 Glycoprotein

The efficacy of a novel subunit vaccine candidate, based in the CSFV E2 glycoprotein produced in plants to prevent classical swine fever virus (CSFV) vertical transmission, was evaluated. A Nicotiana benthamiana tissue culture system was used to obtain a stable production of the E2-glycoprotein fused to the porcine Fc region of IgG. Ten pregnant sows were divided into three groups: Groups 1 and 2 (four sows each) were vaccinated with either 100 μg/dose or 300 μg/dose of the subunit vaccine at 64 days of pregnancy. Group 3 (two sows) was injected with PBS. Groups 1 and 2 were boosted with the same vaccine dose. At 10 days post second vaccination, the sows in Groups 2 and 3 were challenged with a highly virulent CSFV strain. The vaccinated sows remained clinically healthy and seroconverted rapidly, showing efficient neutralizing antibodies. The fetuses from vaccinated sows did not show gross lesions, and all analyzed tissue samples tested negative for CSFV replication. However, fetuses of non-vaccinated sows had high CSFV replication in tested tissue samples. The results suggested that in vaccinated sows, the plant produced E2 marker vaccine induced the protective immunogenicity at challenge, leading to protection from vertical transmission to fetuses.

scholarly journals Analysis of Virus Population Profiles within Pigs Infected with Virulent Classical Swine Fever Viruses: Evidence for Bottlenecks in Transmission but Absence of Tissue-Specific Virus Variants

2020 ◽  
Vol 94 (19) ◽  
Author(s):  
Camille Melissa Johnston ◽  
Ulrik Fahnøe ◽  
Louise Lohse ◽  
Jens Bukh ◽  
Graham J. Belsham ◽  
...  
Keyword(s):  
Classical Swine Fever Virus ◽  
Population Change ◽  
Virulent Strain ◽  
Severe Disease ◽  
Clinical Signs ◽  
Classical Swine Fever ◽  
Fever Virus ◽  
Host Cells ◽  
Virus Population ◽  
Highly Virulent

ABSTRACT Classical swine fever virus (CSFV) contains a specific motif within the E2 glycoprotein that differs between strains of different virulence. In the highly virulent CSFV strain Koslov, this motif comprises residues S763/L764 in the polyprotein. However, L763/P764 represent the predominant alleles in published CSFV genomes. In this study, changes were introduced into the CSFV strain Koslov (here called vKos_SL) to generate modified CSFVs with substitutions at residues 763 and/or 764 (vKos_LL, vKos_SP, and vKos_LP). The properties of these mutant viruses, in comparison to those of vKos_SL, were determined in pigs. Each of the viruses was virulent and induced typical clinical signs of CSF, but the vKos_LP strain produced them significantly earlier. Full-length CSFV cDNA amplicons (12.3 kb) derived from sera of infected pigs were deep sequenced and cloned to reveal the individual haplotypes that contributed to the single-nucleotide polymorphism (SNP) profiles observed in the virus population. The SNP profiles for vKos_SL and vKos_LL displayed low-level heterogeneity across the entire genome, whereas vKos_SP and vKos_LP displayed limited diversity with a few high-frequency SNPs. This indicated that vKos_SL and vKos_LL exhibited a higher level of fitness in the host and more stability at the consensus level, whereas several consensus changes were observed in the vKos_SP and vKos_LP sequences, pointing to adaptation. For each virus, only a subset of the variants present within the virus inoculums were maintained in the infected pigs. No clear tissue-dependent quasispecies differentiation occurred within inoculated pigs; however, clear evidence for transmission bottlenecks to contact animals was observed, with subsequent loss of sequence diversity. IMPORTANCE The surface-exposed E2 protein of classical swine fever virus is required for its interaction with host cells. A short motif within this protein varies between strains of different virulence. The importance of two particular amino acid residues in determining the properties of a highly virulent strain of the virus has been analyzed. Each of the different viruses tested proved highly virulent, but one of them produced earlier, but not more severe, disease. By analyzing the virus genomes present within infected pigs, it was found that the viruses which replicated within inoculated animals were only a subset of those within the virus inoculum. Furthermore, following contact transmission, it was shown that a very restricted set of viruses had transferred between animals. There were no significant differences in the virus populations present in various tissues of the infected animals. These results indicate mechanisms of virus population change during transmission between animals.

A novel dendrimeric peptide induces high level neutralizing antibodies against classical swine fever virus in rabbits

2012 ◽  
Vol 156 (1-2) ◽  
pp. 200-204 ◽  
Author(s):  
Guo-Xin Li ◽  
Yan-Jun Zhou ◽  
Hai Yu ◽  
Ling Li ◽  
Ya-Xin Wang ◽  
...  
Keyword(s):  
Classical Swine Fever Virus ◽  
Neutralizing Antibodies ◽  
Classical Swine Fever ◽  
Fever Virus ◽  
High Level

scholarly journals Comparison of the Pathogenicity of Classical Swine Fever Virus Subgenotype 2.1c and 2.1d Strains from China

Pathogens ◽  
2020 ◽  
Vol 9 (10) ◽  
pp. 821
Author(s):  
Genxi Hao ◽  
Huawei Zhang ◽  
Huanchun Chen ◽  
Ping Qian ◽  
Xiangmin Li
Keyword(s):  
Classical Swine Fever Virus ◽  
Clinical Signs ◽  
Disease Outbreaks ◽  
Classical Swine Fever ◽  
Fever Virus ◽  
Infection Model ◽  
Animal Infection ◽  
Strain Vaccine ◽  
Clinical Scoring ◽  
Control Disease

Classical swine fever (CSF) caused by classical swine fever virus (CSFV) is a highly contagious and devastating disease. The traditional live attenuated C-strain vaccine is widely used to control disease outbreaks in China. Since 2000, subgenotype 2.1 has become dominant in China. Here, we isolated subgenotype 2.1c and 2.1d strains from CSF-suspected pigs. The genetic variations and pathogenesis of subgenotype 2.1c and 2.1d strains were investigated experimentally. We aimed to evaluate and compare the replication characteristics and clinical signs of subgenotype 2.1c and 2.1d strains with those of the typical highly virulent CSFV SM strain. In PK-15 cells, the three CSFV isolates exhibited similar replication levels but significantly lower replication levels compared with the CSFV SM strain. The experimental animal infection model showed that the pathogenicity of subgenotype 2.1c and 2.1d strains was less than that of the CSFV SM strain. According to the clinical scoring system, subgenotype 2.1c (GDGZ-2019) and 2.1d (HBXY-2019 and GXGG-2019) strains were moderately virulent. This study showed that the pathogenicity of CSFV field strains will aid in the understanding of CSFV biological characteristics and the related epidemiology.

Classical swine fever virus C-strain with eight mutation sites shows enhanced cell adaptation and protects pigs from lethal challenge

2019 ◽  
Vol 164 (6) ◽  
pp. 1619-1628 ◽  
Author(s):  
Tong Cao ◽  
Shengnan Zhang ◽  
Xiaoye Li ◽  
Yonghao Xu ◽  
Zuohuan Wang ◽  
...  
Keyword(s):  
Classical Swine Fever Virus ◽  
Classical Swine Fever ◽  
Fever Virus ◽  
Lethal Challenge ◽  
Cell Adaptation ◽  
Virus C

Immunity against NS3 Protein of Classical Swine Fever Virus Does Not Protect against Lethal Challenge Infection

2007 ◽  
Vol 20 (3) ◽  
pp. 487-494 ◽  
Author(s):  
Heiner Voigt ◽  
Daniel Wienhold ◽  
Christian Marquardt ◽  
Konstanze Muschko ◽  
Eberhard Pfaff ◽  
...  
Keyword(s):  
Classical Swine Fever Virus ◽  
Classical Swine Fever ◽  
Challenge Infection ◽  
Fever Virus ◽  
Lethal Challenge ◽  
Ns3 Protein
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