Your search keyword '"Chia-Yi Chang"' showing total 199 results

1. Strategies for Transboundary Swine Disease Management in Asian Islands: Foot and Mouth Disease, Classical Swine Fever, and African Swine Fever in Taiwan, Japan, and the Philippines

Author

Chia-Hui Hsu, Chia-Yi Chang, Satoshi Otake, Thomas W. Molitor, and Andres Perez

Subjects

transboundary disease, foot and mouth disease, classical swine fever, African swine fever, disease control, Veterinary medicine, SF600-1100

Abstract

Swine transboundary diseases pose significant challenges in East and Southeast Asia, affecting Taiwan, Japan, and the Philippines. This review delves into strategies employed by these islands over the past two decades to prevent or manage foot and mouth disease (FMD), classical swine fever (CSF), and African swine fever (ASF) in domestic pigs and wild boars. Despite socio-economic differences, these islands share geographical and climatic commonalities, influencing their thriving swine industries. Focusing on FMD eradication, this study unveils Taiwan’s success through mass vaccination, Japan’s post-eradication surveillance, and the Philippines’ zoning strategy. Insights into CSF in Japan emphasize the importance of wild boar control, whereas the ASF section highlights the multifaceted approach implemented through the Philippine National ASF Prevention and Control Program. This review underscores lessons learned from gained experiences, contributing to a comprehensive understanding of swine disease management in the region.

Published

2024

2. Identification of neutralizing epitopes on the D/A domain of the E2 glycoprotein of classical swine fever virus

Author

Yu-Liang Huang, Denise Meyer, Alexander Postel, Kuo-Jung Tsai, Hsin-Meng Liu, Chia-Huei Yang, Yu-Chun Huang, Hui-Wen Chang, Ming-Chung Deng, Fun-In Wang, Paul Becher, Helen Crooke, and Chia-Yi Chang

Subjects

Classical swine fever virus, Pestivirus, Glycoprotein E2, Epitope mapping, Conformational epitope, Virus neutralization, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Classical swine fever virus (CSFV) shares high antigenic homology with other members of the genus Pestivirus. Because several pestivirus species can also infect swine, eliciting cross-reactive antibodies, it is important to define CSFV-specific epitopes for the differential diagnosis of classical swine fever (CSF) by serology. For this purpose, epitope mapping of seven monoclonal antibodies (mAbs), recognizing sites on the D/A domain of glycoprotein E2, was performed using recombinant expressed antigenic domains and mutants of E2, as well as an overlapping peptide library. Three CSFV-specific epitopes, i.e., 780-IEEMGDDFGFGLCPF-794, 810-NGSAFYLVCPIGWTG-824, and 846-REKPF-850, were identified within the D/A domain of E2. Site-directed mutagenesis further confirmed that residues 783-MGD-785, 789-FGLCPF-794, 813-AFYLVCPIGWTG-824, and 846-REK-848 were critical residues in these regions. In addition, a F789S difference within the epitope 780-IEEMGDDFGFGLCPF-794 was responsible for the absence of binding of two mAbs to the E2 protein of the live attenuated CSFV vaccine strain Riems. Structural modeling revealed that, the three epitopes are located near each other, suggesting that they may form a more complex conformational epitope on the D/A domain in vivo. Six of the mAbs neutralized viruses of diverse genotypes, indicating that the target epitopes are involved in virus interaction with cells. The binding of CSFV to cells was significantly reduced after pre-incubation with either truncated E2 proteins comprising the D/A domain or with the CSFV-specific mAbs targeting the domain D/A. These epitopes identified on the D/A domain are important targets for virus neutralization that might be involved in the early steps of CSFV infection. These findings reveal potential candidates for improving the differential diagnosis of pestiviruses by serology.

Published

2023

3. Cross-reactivities and cross-neutralization of different envelope glycoproteins E2 antibodies against different genotypes of classical swine fever virus

Author

Wei-Tao Chen, Hsin-Meng Liu, Chia-Yi Chang, Ming-Chung Deng, Yu-Liang Huang, Yen-Chen Chang, and Hui-Wen Chang

Subjects

classical swine fever, E2 glycoprotein, cross-reaction, cross-neutralizing activity, genotypes, Veterinary medicine, SF600-1100

Abstract

Classical swine fever (CSF) is a highly contagious swine disease caused by the classical swine fever virus (CSFV), wreaking havoc on global swine production. The virus is divided into three genotypes, each comprising 4–7 sub-genotypes. The major envelope glycoprotein E2 of CSFV plays an essential role in cell attachment, eliciting immune responses, and vaccine development. In this study, to study the cross-reaction and cross-neutralizing activities of antibodies against different genotypes (G) of E2 glycoproteins, ectodomains of G1.1, G2.1, G2.1d, and G3.4 CSFV E2 glycoproteins from a mammalian cell expression system were generated. The cross-reactivities of a panel of immunofluorescence assay-characterized serum derived from pigs with/without a commercial live attenuated G1.1 vaccination against different genotypes of E2 glycoproteins were detected by ELISA. Our result showed that serum against the LPCV cross-reacted with all genotypes of E2 glycoproteins. To evaluate cross-neutralizing activities, hyperimmune serum from different CSFV E2 glycoprotein-immunized mice was also generated. The result showed that mice anti-E2 hyperimmune serum exhibited better neutralizing abilities against homologous CSFV than heterogeneous viruses. In conclusion, the results provide information on the cross-reactivity of antibodies against different genogroups of CSFV E2 glycoproteins and suggest the importance of developing multi-covalent subunit vaccines for the complete protection of CSF.

Published

2023

4. Transmission of Classical Swine Fever Virus in Cohabitating Piglets with Various Immune Statuses Following Attenuated Live Vaccine

Author

Chia-Yi Chang, Kuo-Jung Tsai, Ming-Chung Deng, Fun-In Wang, Hsin-Meng Liu, Shu-Hui Tsai, Yang-Chang Tu, Nien-Nong Lin, and Yu-Liang Huang

Subjects

classical swine fever, modified live vaccine, maternally derived antibody, transmission, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Classical swine fever (CSF) is a systemic hemorrhagic disease affecting domestic pigs and wild boars. The modified live vaccine (MLV) induces quick and solid protection against CSF virus (CSFV) infection. Maternally derived antibodies (MDAs) via colostrum could interfere with the MLV’s efficacy, leading to incomplete protection against CSFV infection for pigs. This study investigated CSFV transmission among experimental piglets with various post-MLV immune statuses. Nineteen piglets, 18 with MDAs and 1 specific-pathogen-free piglet infected with CSFV that served as the CSFV donor, were cohabited with piglets that had or had not been administered the MLV. Five-sixths of the piglets with MDAs that had been administered one dose of MLV were fully protected from contact transmission from the CSFV donor and did not transmit CSFV to the piglets secondarily exposed through cohabitation. Cell-mediated immunity, represented by the anti-CSFV-specific interferon-γ-secreting cells, was key to viral clearance and recovery. After cohabitation with a CSFV donor, the unvaccinated piglets with low MDA levels exhibited CSFV infection and spread CSFV to other piglets through contact; those with high MDA levels recovered but acted as asymptomatic carriers. In conclusion, MLV still induces solid immunity in commercial herds under MDA interference and blocks CSFV transmission within these herds.

Published

2023

5. High Abundance and Genetic Variability of Atypical Porcine Pestivirus in Pigs from Europe and Asia

Author

Alexander Postel, Denise Meyer, Gökce Nur Cagatay, Francesco Feliziani, Gian Mario De Mia, Nicole Fischer, Adam Grundhoff, Vesna Milićević, Ming-Chung Deng, Chia-Yi Chang, Hua-Ji Qiu, Yuan Sun, Michael Wendt, and Paul Becher

Subjects

atypical porcine pestivirus, Europe, Asia, genome detection, serology, genetic variability, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Atypical porcine pestivirus (APPV) was recently reported to be associated with neurologic disorders in newborn piglets. Investigations of 1,460 serum samples of apparently healthy pigs from different parts of Europe and Asia demonstrate a geographically wide distribution of genetically highly variable APPV and high APPV genome and antibody detection rates.

Published

2017

6. Identification of a Common Conformational Epitope on the Glycoprotein E2 of Classical Swine Fever Virus and Border Disease Virus

Author

Yu-Liang Huang, Denise Meyer, Alexander Postel, Kuo-Jung Tsai, Hsin-Meng Liu, Chia-Huei Yang, Yu-Chun Huang, Nicholas Berkley, Ming-Chung Deng, Fun-In Wang, Paul Becher, Helen Crooke, and Chia-Yi Chang

Subjects

classical swine fever virus, border disease virus, glycoprotein E2, epitope mapping, cross reactivity, conformational epitope, Microbiology, QR1-502

Abstract

Classical swine fever virus (CSFV) shares high structural and antigenic homology with bovine viral diarrhea virus (BVDV) and border disease virus (BDV). Because all three viruses can infect swine and elicit cross-reactive antibodies, it is necessary to differentiate among them with regard to serological diagnosis of classical swine fever. To understand the mechanism of cross-reactivity, it is important to define common or specific epitopes of these viruses. For this purpose, epitope mapping of six monoclonal antibodies (mAbs) was performed using recombinant expressed antigenic domains of CSFV and BDV E2 proteins. One CSFV-specific conformational epitope and one CSFV and BDV common epitope within domain B/C of E2 were identified. Site-directed mutagenesis confirmed that residues G725 and V738/I738 of the CSFV-specific epitope and P709/L709 and E713 of the second epitope are important for mAbs binding. Infection of CSFV in porcine cells was significantly reduced after pre-incubation of the cells with the domain B/C of E2 or after pre-incubation of CSFV with the mAbs detecting domain B/C. 3D structural modeling suggested that both epitopes are exposed on the surface of E2. Based on this, the identified epitopes represent a potential target for virus neutralization and might be involved in the early steps of CSFV infection.

Published

2021

7. Deletion in the S1 Region of Porcine Epidemic Diarrhea Virus Reduces the Virulence and Influences the Virus-Neutralizing Activity of the Antibody Induced

Author

Kuo-Jung Tsai, Ming-Chung Deng, Fun-In Wang, Shu-Hui Tsai, Chieh Chang, Chia-Yi Chang, and Yu-Liang Huang

Subjects

PEDV, deletion, spike protein, virulence, neutralizing active, Microbiology, QR1-502

Abstract

Porcine epidemic diarrhea virus (PEDV) causes severe diarrhea and a high rate of mortality in suckling pigs. The epidemic of PEDV that occurred after 2013 was caused by non-insertion and deletion of S gene (S-INDEL) PEDV strains. During this epidemic, a variant of the non-S-INDEL PEDV strain with a large deletion of 205 amino acids on the spike gene (5-17-V) was also found to co-exist with a non-S-INDEL PEDV without deletion (5-17-O). Herein, we describe the differences in the complete genome, distribution, virulence, and antigenicity between strain 5-17-O and variant strain 5-17-V. The deletion of 205 amino acids was primarily located in the S1O domain and was associated with milder clinical signs and lower mortality in suckling pigs than those of the 5-17-O strain. The 5-17-V strain-induced antibody did not completely cross-neutralize the 5-17-O strain. In conclusion, the deletion in the S1 region reduces the virulence of PEDV and influences the virus-neutralizing activities of the antibody it induces.

Published

2020

8. The Tip Region on VP2 Protein of Bluetongue Virus Contains Potential IL-4-Inducing Amino Acid Peptide Segments

Author

Jia-Ling Yang, Chia-Yi Chang, Chih-Shuan Sheng, Chia-Chi Wang, and Fun-In Wang

Subjects

bluetongue virus (BTV), bioinformatics, cytokines, IL-4, monocyte-derived macrophage (MDM), peripheral blood mononuclear cell (PBMC), Medicine

Abstract

Bluetongue is an infectious viral hemorrhagic disease of domestic and wild ruminants that has a considerable economic impact on domestic ruminants. There are currently at least 29 serotypes of bluetongue virus (BTV) in the world. Noteworthily, the pathogenesis among BTV serotypes is different, even in the same animal species. In this study, BTV2/KM/2003 and BTV12/PT/2003 were used to investigate the differential immunological effects on bovine peripheral blood mononuclear cells (PBMCs). The BTV viral load and the expression of cytokine messenger RNA (mRNA) in PBMCs were measured by fluorescence-based real-time reverse-transcription PCR (qRT-PCR). The immunofluorescence assay (IFA) was applied to detect BTV signals in monocyte-derived macrophages (MDMs). The SWISS-MODEL and IL-4pred prediction tools were used to predict the interleukin 4 (IL-4)-inducing peptides in BTV-coat protein VP2. Synthetic peptides of VP2 were used to stimulate PBMCs for IL-4-inducing capability. This study demonstrated that the cytokine profiles of BTV-induced PBMCs were significantly different between BTV2/KM/2003 and BTV12/PT/2003. BTV2 preferentially activated the T helper 2 (Th2) pathway, represented by the early induction of IL-4, and likely fed back to inhibit the innate immunity. In contrast, BTV12 preferentially activated the innate immunity, represented by the induction of tumor necrosis factor -α (TNF-α) and interleukin 1 (IL-1), with only minimal subsequent IL-4. The BTV nonstructural protein 3 antibody (anti-BTV-NS3) fluorescent signals demonstrated that monocytes in PBMCs and MDMs were the preferred targets of BTV replication. Bioinformatics analysis revealed that the capability to induce IL-4 was attributed to the tip region of the VP2 protein, wherein a higher number of predicted peptide segments on BTVs were positively correlated with the allergic reaction reported in cattle. Synthetic peptides of BTV2-VP2 induced significant IL-4 within 12–24 h post-infection (hpi) in PBMCs, whereas those of BTV12 did not, consistent with the bioinformatics prediction. Bovine PBMCs and synthetic peptides together seem to serve as a good model for pursuing the BTV-induced IL-4 activity that precedes the development of an allergic reaction, although further optimization of the protocol is warranted.

Published

2020

9. A Highly Conserved Epitope (RNNQIPQDF) of Porcine teschovirus Induced a Group-Specific Antiserum: A Bioinformatics-Predicted Model with Pan-PTV Potential

Author

Tung-Hsuan Tsai, Chia-Yi Chang, and Fun-In Wang

Subjects

bioinformatics, linearly arranged epitope, Porcine teschovirus, Microbiology, QR1-502

Abstract

Porcine teschovirus (PTV) is an OIE-listed pathogen with 13 known PTV serotypes. Heterologous PTV serotypes frequently co-circulate and co-infect with another swine pathogen, causing various symptoms in all age groups, thus highlighting the need for a pan-PTV diagnostic tool. Here, a recombinant protein composed of a highly conserved “RNNQIPQDF” epitope on the GH loop of VP1, predicted in silico, and a tandem repeat of this epitope carrying the pan DR (PADRE) and Toxin B epitopes was constructed to serve as a PTV detection tool. This recombinant GST-PADRE-(RNNQIPQDF)n-Toxin B protein was used as an immunogen, which effectively raised non-neutralizing or undetectable neutralizing antibodies against PTV in mice. The raised antiserum was reactive against all the PTV serotypes (PTV–1–7) tested, but not against members of the closely related genera Sapelovirus and Cardiovirus, and the unrelated virus controls. This potential pan-PTV diagnostic reagent may be used to differentiate naturally infected animals from vaccinated animals that have antibodies against a subunit vaccine that does not contain this epitope or to screen for PTV before further subtyping. To our knowledge, this is the first report that utilized in silico PTV epitope prediction to find a reagent broadly reactive to various PTV serotypes.

Published

2020

10. Classical Swine Fever: A Truly Classical Swine Disease

Author

Fun-In Wang and Chia-Yi Chang

Subjects

n/a, Medicine

Abstract

Recent reemergence of classical swine fever (CSF) in previous CSF-free areas reminds the veterinary community of this old disease [...]

Published

2020

11. In Vivo Demonstration of the Superior Replication and Infectivity of Genotype 2.1 with Respect to Genotype 3.4 of Classical Swine Fever Virus by Dual Infections

Author

Yu-Liang Huang, Kuo-Jung Tsai, Ming-Chung Deng, Hsin-Meng Liu, Chin-Cheng Huang, Fun-In Wang, and Chia-Yi Chang

Subjects

classical swine fever virus, genotype, virus shift, viral replication, dual infections, Medicine

Abstract

In Taiwan, the prevalent CSFV population has shifted from the historical genotype 3.4 (94.4 strain) to the newly invading genotype 2.1 (TD/96 strain) since 1996. This study analyzed the competition between these two virus genotypes in dual infection pigs with equal and different virus populations and with maternally derived neutralizing antibodies induced by a third genotype of modified live vaccine (MLV), to simulate that occurring in natural situations in the field. Experimentally, under various dual infection conditions, with or without the presence of maternal antibodies, with various specimens from blood, oral and fecal swabs, and internal organs at various time points, the TD/96 had consistently 1.51−3.08 log higher loads than those of 94.4. A second passage of competition in the same animals further widened the lead of TD/96 as indicated by viral loads. The maternally derived antibodies provided partial protection to both wild type CSFVs and was correlated with lower clinical scores, febrile reaction, and animal mortality. In the presence of maternal antibodies, pigs could be infected by both wild type CSFVs, with TD/96 dominating. These findings partially explain the CSFV shift observed, furthering our understanding of CSFV pathogenesis in the field, and are helpful for the control of CSF.

Published

2020

12. Structures and Functions of Pestivirus Glycoproteins: Not Simply Surface Matters

Author

Fun-In Wang, Ming-Chung Deng, Yu-Liang Huang, and Chia-Yi Chang

Subjects

pestivirus, glycoprotein, Erns, E1, E2, structure, function, Microbiology, QR1-502

Abstract

Pestiviruses, which include economically important animal pathogens such as bovine viral diarrhea virus and classical swine fever virus, possess three envelope glycoproteins, namely Erns, E1, and E2. This article discusses the structures and functions of these glycoproteins and their effects on viral pathogenicity in cells in culture and in animal hosts. E2 is the most important structural protein as it interacts with cell surface receptors that determine cell tropism and induces neutralizing antibody and cytotoxic T-lymphocyte responses. All three glycoproteins are involved in virus attachment and entry into target cells. E1-E2 heterodimers are essential for viral entry and infectivity. Erns is unique because it possesses intrinsic ribonuclease (RNase) activity that can inhibit the production of type I interferons and assist in the development of persistent infections. These glycoproteins are localized to the virion surface; however, variations in amino acids and antigenic structures, disulfide bond formation, glycosylation, and RNase activity can ultimately affect the virulence of pestiviruses in animals. Along with mutations that are driven by selection pressure, antigenic differences in glycoproteins influence the efficacy of vaccines and determine the appropriateness of the vaccines that are currently being used in the field.

Published

2015

13. Silencing the Chicken Seven Transmembrane (Ch-7TM) Receptor Leads to Apoptosis in Chicken Mononuclear Phagocytes

Author

Jia-Ling Yang, Long-Huw Lee, Hsing-Chieh Wu, Jin-Ru Lin, Chia-Chi Wang, Yu-San Chen, and Chia-Yi Chang

Abstract

Background The seven-transmembrane (7TM) receptors are the largest superfamily of cell-surface receptors and are involved in various physiological processes of vertebrate species. In our previous study, a new chicken 7TM receptor (Ch-7TM) was discovered in mononuclear phagocytes (MNPs) derived from chicken peripheral blood mononuclear cells (PBMCs). To explore the functions of Ch-7TM, RNA interference (RNAi) was used to silence the Ch-7TM messenger RNA (mRNA) of MNPs, using small interface RNA (siRNA) designed with BLOCK-iT™ RNAi Designer. Results Herein we demonstrated that silencing of the Ch-7TM mRNA induced apoptosis of MNPs, suggesting that Ch-7TM contributed to the survival of MNPs. Moreover, chicken sera could inhibit the Ch-7TM-silencing-induced apoptosis in MNPs. The survival factor presented in fraction 16 (F16) of chicken sera was highly protective against the Ch-7TM-silencing-induced apoptosis in MNPs. The proteins from fraction 16 (F16) were identified as vitamin D-binding protein and apolipoprotein A-IV (ApoA-IV), which might be potential candidates for survival factors. Conclusions The protective effect of vitamin D and ApoA-IV indicated that Ch-7TM might involve the intracellular oxidation–reduction balance, although more evidence is needed to confirm this function. The siRNA screening serves as an excellent model for studying the functions of chicken MNPs receptors.

Published

2023

14. Identification of CSFV-Specific Epitopes on the D/A Domain of Glycoprotein E2 of Classical Swine Fever Virus Important for Virus Neutralization

Author

Yu-Liang Huang, Denise Meyer, Alexander Postel, Kuo-Jung Tsai, Hsin-Meng Liu, Chia-Huei Yang, Yu-Chun Huang, Hui-Wen Chang, Ming-Chung Deng, Fun-In Wang, Paul Becher, Helen Crooke, and Chia-Yi Chang

Published

2023

15. THE FEASIBILITY OF CONSTRUCTING A PORCINE TESCHOVIRUS INFECTIOUS cDNA CLONE TAGGED WITH iLOV FLUORESCENT PROTEIN RESCUED AS A VISIBLE MARKER VIRUS

Author

Tung-Hsuan Tsai, Chia-Yi Chang, and Fun-In Wang

Subjects

General Medicine

Abstract

Viral vectors serve as promising tools for the development of novel multivalent or multipathogen vaccines. Poliovirus (of the family Picornaviridae) vectors offer the advantages of small genome size, ease of manipulation, inherent stability in the intestinal tract, and induction of potent mucosal immunity through oral administration. Porcine teschovirus (PTV), also belonging to Picornaviridae, generally causes asymptomatic infections in pigs. PTV’s wide tissue tropism suggests that it can act as a potential vector for vaccine development; however, no infectious PTV cDNA clone has been reported yet. In this study, infectious PTV cDNA was cloned and recombinant porcine teschovirus (rPTV) was constructed with a unique XhoI site introduced into 2A, as well as substitution of the G–H loop sequence “RNNQIPQDF” of VP1 by an 8-histidine marker which helps to differentiate it from the parental PTV. Subsequently, the coding sequence of a small fluorescent protein, iLOV, was incorporated into the XhoI site to rescue the recombinant rPTV-iLOV virus, allowing for direct visualization of the viral infection. These rescued viruses were replication-competent and antigenically identical to the parental virus, but showed attenuation due to an impaired self-cleaving function caused by the insertion of iLOV into the 2A protease site, as assessed by a double reporter expressing system. This rescued recombinant virus shows potential for the development of attenuated vaccines with few safety concerns and may serve as an important tool to visually study virus–cell interactions.

Published

2021

16. Buffer/flip-flop block planning for power-integrity-driven floorplanning.

Author

Hsin-Hua Pan, Hung-Ming Chen, and Chia-Yi Chang

Published

2009

17. Web Server Power Estimation, Modeling and Management.

Author

Chia-Hung Lien, Ying-Wen Bai, Ming-Bo Lin, Chia-Yi Chang, and Ming-Yuan Tsai

Published

2006

18. First detection and phylogenetic analysis of lumpy skin disease virus from Kinmen Island, Taiwan in 2020

Author

Kuo-Jung TSAI, Yang-Chang TU, Chieh-Hao WU, Chih-Wei HUANG, Lu-Jen TING, Yu-Liang HUANG, Chu-Hsiang PAN, Chia-Yi CHANG, Ming-Chung DENG, and Fan LEE

Subjects

Lumpy skin disease virus, General Veterinary, Lumpy Skin Disease, Taiwan, Animals, Cattle Diseases, Cattle, Phylogeny, Disease Outbreaks

Abstract

Lumpy skin disease is an arthropod-borne bovine disease caused by lumpy skin disease virus. A suspect lumpy skin disease case in a breeding cattle farm on Kinmen Island, Taiwan was reported on July 8, 2020 and later confirmed the first occurrence of lumpy skin disease in the country by molecular biological detections, electron microscopy, and sequence comparison. Implementation of control measures including blanket vaccination on the island effectively ceased the outbreaks. Phylogenetic analyses revealed that the virus discovered in the outbreaks was most similar to those identified in China in 2019. Identifying this virus in the coastal areas in East Asia indicated the rapid eastward spread of lumpy skin disease in Asia.

Published

2022

19. The Tip Region on VP2 Protein of Bluetongue Virus Contains Potential IL-4-Inducing Amino Acid Peptide Segments

Author

Fun-In Wang, Jia-Ling Yang, Chia-Chi Wang, Chia-Yi Chang, and Chih-Shuan Sheng

Subjects

Microbiology (medical), lcsh:Medicine, Peripheral blood mononuclear cell, Virus, Article, bluetongue virus (BTV), Immune system, Immunology and Allergy, Molecular Biology, Peptide sequence, Interleukin 4, General Immunology and Microbiology, biology, monocyte-derived macrophage (MDM), pathogenesis, lcsh:R, IL-4, Interleukin, bioinformatics, Virology, cytokines, Infectious Diseases, Viral replication, peripheral blood mononuclear cell (PBMC), biology.protein, Antibody

Abstract

Bluetongue is an infectious viral hemorrhagic disease of domestic and wild ruminants that has a considerable economic impact on domestic ruminants. There are currently at least 29 serotypes of bluetongue virus (BTV) in the world. Noteworthily, the pathogenesis among BTV serotypes is different, even in the same animal species. In this study, BTV2/KM/2003 and BTV12/PT/2003 were used to investigate the differential immunological effects on bovine peripheral blood mononuclear cells (PBMCs). The BTV viral load and the expression of cytokine messenger RNA (mRNA) in PBMCs were measured by fluorescence-based real-time reverse-transcription PCR (qRT-PCR). The immunofluorescence assay (IFA) was applied to detect BTV signals in monocyte-derived macrophages (MDMs). The SWISS-MODEL and IL-4pred prediction tools were used to predict the interleukin 4 (IL-4)-inducing peptides in BTV-coat protein VP2. Synthetic peptides of VP2 were used to stimulate PBMCs for IL-4-inducing capability. This study demonstrated that the cytokine profiles of BTV-induced PBMCs were significantly different between BTV2/KM/2003 and BTV12/PT/2003. BTV2 preferentially activated the T helper 2 (Th2) pathway, represented by the early induction of IL-4, and likely fed back to inhibit the innate immunity. In contrast, BTV12 preferentially activated the innate immunity, represented by the induction of tumor necrosis factor -&alpha, (TNF-&alpha, ) and interleukin 1 (IL-1), with only minimal subsequent IL-4. The BTV nonstructural protein 3 antibody (anti-BTV-NS3) fluorescent signals demonstrated that monocytes in PBMCs and MDMs were the preferred targets of BTV replication. Bioinformatics analysis revealed that the capability to induce IL-4 was attributed to the tip region of the VP2 protein, wherein a higher number of predicted peptide segments on BTVs were positively correlated with the allergic reaction reported in cattle. Synthetic peptides of BTV2-VP2 induced significant IL-4 within 12&ndash, 24 h post-infection (hpi) in PBMCs, whereas those of BTV12 did not, consistent with the bioinformatics prediction. Bovine PBMCs and synthetic peptides together seem to serve as a good model for pursuing the BTV-induced IL-4 activity that precedes the development of an allergic reaction, although further optimization of the protocol is warranted.

Published

2020

20. Togaviruses

Author

Fun‐In Wang, Chia‐Yi Chang, and Chin‐Cheng Huang

Published

2019

21. Identification of a Common Conformational Epitope on the Glycoprotein E2 of Classical Swine Fever Virus and Border Disease Virus

Author

Kuo-Jung Tsai, Chia-Yi Chang, Chia-Huei Yang, Fun-In Wang, Nicholas Berkley, Alexander Postel, Denise Meyer, Yu-Liang Huang, Helen Crooke, Hsin-Meng Liu, Yu-Chun Huang, Ming-Chung Deng, and Paul Becher

Subjects

Swine, medicine.drug_class, viruses, Biology, medicine.disease_cause, Monoclonal antibody, classical swine fever virus, Microbiology, Cross-reactivity, Article, Epitope, Virus, Classical Swine Fever, Epitopes, Protein Domains, Viral Envelope Proteins, conformational epitope, Virology, medicine, Animals, border disease virus, attachment, Swine Diseases, Border Disease, biology.organism_classification, QR1-502, epitope mapping, Infectious Diseases, Epitope mapping, Classical swine fever, cross reactivity, glycoprotein E2, biology.protein, entry, Antibody, Conformational epitope

Abstract

Classical swine fever virus (CSFV) shares high structural and antigenic homology with bovine viral diarrhea virus (BVDV) and border disease virus (BDV). Because all three viruses can infect swine and elicit cross-reactive antibodies, it is necessary to differentiate among them with regard to serological diagnosis of classical swine fever. To understand the mechanism of cross-reactivity, it is important to define common or specific epitopes of these viruses. For this purpose, epitope mapping of six monoclonal antibodies (mAbs) was performed using recombinant expressed antigenic domains of CSFV and BDV E2 proteins. One CSFV-specific conformational epitope and one CSFV and BDV common epitope within domain B/C of E2 were identified. Site-directed mutagenesis confirmed that residues G725 and V738/I738 of the CSFV-specific epitope and P709/L709 and E713 of the second epitope are important for mAbs binding. Infection of CSFV in porcine cells was significantly reduced after pre-incubation of the cells with the domain B/C of E2 or after pre-incubation of CSFV with the mAbs detecting domain B/C. 3D structural modeling suggested that both epitopes are exposed on the surface of E2. Based on this, the identified epitopes represent a potential target for virus neutralization and might be involved in the early steps of CSFV infection.

Published

2021

22. The double-antigen ELISA concept for early detection of Erns-specific classical swine fever virus antibodies and application as an accompanying test for differentiation of infected from marker vaccinated animals

Author

Chia-Yi Chang, Sandra Blome, Hua-Ji Qiu, Yuzi Luo, M. Beyerbach, Denise Meyer, Paul Becher, S. Fritsche, C. Engemann, and Alexander Postel

Subjects

0301 basic medicine, General Veterinary, General Immunology and Microbiology, biology, General Medicine, Marker vaccine, biology.organism_classification, behavioral disciplines and activities, Virology, Virus, Serology, Diva, Vaccination, 03 medical and health sciences, 030104 developmental biology, Classical swine fever, Immunology, biology.protein, Seroconversion, Antibody

Abstract

Emergency vaccination with live marker vaccines represents a promising control strategy for future classical swine fever (CSF) outbreaks, and the first live marker vaccine is available in Europe. Successful implementation is dependent on a reliable accompanying diagnostic assay that allows differentiation of infected from vaccinated animals (DIVA). As induction of a protective immune response relies on virus-neutralizing antibodies against E2 protein of CSF virus (CSFV), the most promising DIVA strategy is based on detection of Erns -specific antibodies in infected swine. The aim of this study was to develop and to evaluate a novel Erns -specific prototype ELISA (pigtype CSFV Erns Ab), which may be used for CSF diagnosis including application as an accompanying discriminatory test for CSFV marker vaccines. The concept of a double-antigen ELISA was shown to be a solid strategy to detect Erns -specific antibodies against CSFV isolates of different genotypes (sensitivity: 93.5%; specificity: 99.7%). Furthermore, detection of early seroconversion is advantageous compared with a frequently used CSFV E2 antibody ELISA. Clear differences in reactivity between sera taken from infected animals and animals vaccinated with various marker vaccines were observed. In combination with the marker vaccine CP7_E2alf, the novel ELISA represents a sensitivity of 90.2% and a specificity of 93.8%. However, cross-reactivity with antibodies against ruminant pestiviruses was observed. Interestingly, the majority of samples tested false-positive in other Erns -based antibody ELISAs were identified correctly by the novel prototype Erns ELISA and vice versa. In conclusion, the pigtype CSFV Erns Ab ELISA can contribute to an improvement in routine CSFV antibody screening, particularly for analysis of sera taken at an early time point after infection and is applicable as a DIVA assay. An additional Erns antibody assay is recommended for identification of false-positive results in a pig herd immunized with the licensed CP7_E2alf marker vaccine.

Published

2017

23. Film Classification Using HSV Distribution and Deep Learning Neural Networks

Author

Kun-Fu Tseng, Jun-Hong Shen, Ling-Ling Wang, Ching-Ta Lu, Chia-Hua Liu, and Chia-Yi Chang

Subjects

Brightness, Artificial neural network, Computer science, business.industry, Deep learning, Frame (networking), Value (computer science), Pattern recognition, Artificial intelligence, HSL and HSV, Color space, business, Hue

Abstract

The number of films is numerous and complex. A viewer wants to choose a favorite movie is time consuming. This study aims to develop an automatic film classification system. Firstly, a film is sampled frame by frame. The color space in terms of hue, saturation, and brightness value (HSV) in each frame is analyzed. Hence the mean and deviation of the HSV are computed and utilized as classification features for each film. These features are fed into deep learning neural networks. Twenty-five trailers are employed to train the model parameters of neural networks. In the classification phase, twenty-five trailers are classified into five categories, including science fiction, literature-love, action, comedy films, and horror and thrillers. Experimental results show that the proposed method can effectively classify the film types, where the precision rate can reach 93.3%.

Published

2019

24. The urinary shedding of porcine teschovirus in endemic field situations

Author

Yi-Ching Kuo, Fun-In Wang, Chia-Yi Chang, Chien-Chun Kuo, Jia-Ling Yang, and Arthur Tung-Hsuan Tsai

Subjects

0301 basic medicine, Serotype, Endemic Diseases, Teschovirus, Swine, Urinary system, Sus scrofa, Context (language use), Urine, Serogroup, Microbiology, 03 medical and health sciences, medicine, Animals, Viral shedding, Feces, Swine Diseases, Kidney, Picornaviridae Infections, General Veterinary, biology, General Medicine, Viral Load, biology.organism_classification, Virology, Virus Shedding, 030104 developmental biology, medicine.anatomical_structure

Abstract

Porcine teschoviruses (PTVs) belong to the genus Teschovirus within the family Picornaviridae. PTVs are universal contaminants in pig herds in endemic and multi-infection statuses. Previous research has demonstrated PTV antigens and nucleic acid in renal glomeruli and tubular epithelia, suggesting the possibility that PTVs might be shed and transmitted via urine. The study aimed to demonstrate, in the context of pathogenesis, the presence of PTVs in the urine of naturally infected pigs. Viral loads of fluid and tissue samples quantified by an established qRT-PCR showed detection rates of 100% by head and in urine, feces, plasma and nasal swabs, and 38% in kidney. As predicted, PTVs were present in urine at 10(4.02 ± 1.45) copies/100 μl volume, equivalent to 17% of that in plasma. No significant differences were observed between healthy and culled pigs or among the 7 sampled herds. The presence of PTVs in urine was further substantiated by molecular serotyping. In particular, PTV-10 was identified in the urine of 3 piglets from 3 separate herds, consistent with the most prevalent serotype found in this study, and in plasma. The urine mixes with feces to form slurry making it easier for PTV to spread and contaminate the environment.

Published

2016

25. Evolutionary characterization of the emerging porcine epidemic diarrhea virus worldwide and 2014 epidemic in Taiwan

Author

Ming Chung Deng, Yu Liang Huang, Ming Hua Sung, Yu Ching Lan, Hsin Lin Chou, Day-Yu Chao, Chia Yi Chang, and Yi Hsuan Chung

Subjects

Likelihood mapping, Microbiology (medical), Genes, Viral, Genotype, Swine, Nsp3, Taiwan, Spike, Phylogenetic signal, Global Health, History, 21st Century, Microbiology, Genome, Article, Disease Outbreaks, Evolution, Molecular, Phylogenetics, Genetics, Animals, Clade, Molecular Biology, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, Swine Diseases, biology, Phylogenetic tree, Porcine epidemic diarrhea virus, Bayes Theorem, Evolutionary rate, biology.organism_classification, Infectious Diseases, GenBank, Spike Glycoprotein, Coronavirus, Coronavirus Infections

Abstract

Since 2010, a new variant of PEDV belonging to Genogroup 2 has been transmitting in China and further spreading to the Unites States and other Asian countries including Taiwan. In order to characterize in detail the temporal and geographic relationships among PEDV strains, the present study systematically evaluated the evolutionary patterns and phylogenetic resolution in each gene of the whole PEDV genome in order to determine which regions provided the maximal interpretative power. The result was further applied to identify the origin of PEDV that caused the 2014 epidemic in Taiwan. Thirty-four full genome sequences were downloaded from GenBank and divided into three non-mutually exclusive groups, namely, worldwide, Genogroup 2 and China, to cover different ranges of secular and spatial trends. Each dataset was then divided into different alignments by different genes for likelihood mapping and phylogenetic analysis. Our study suggested that both nsp3 and S genes contained the highest phylogenetic signal with substitution rate and phylogenetic topology similar to those obtained from the complete genome. Furthermore, the proportion of nodes with high posterior support (posterior probability > 0.8) was similar between nsp3 and S genes. The nsp3 gene sequences from three clinical samples of swine with PEDV infections were aligned with other strains available from GenBank and the results suggested that the virus responsible for the 2014 PEDV outbreak in Taiwan clustered together with Clade I from the US within Genogroup 2. In conclusion, the current study identified the nsp3 gene as an alternative marker for a rapid and unequivocal classification of the circulating PEDV strains which provides complementary information to the S gene in identifying the emergence of epidemic strain resulting from recombination., Highlights • Both nsp3 and S genes revealed the phylogeny similar to those obtained from the complete genome. • Nsp3 gene could assist to identify the emergence of epidemic strain resulting from recombination. • The sequences from the 2014 PEDV outbreak in Taiwan clustered with Clade I viral sequences from the US within Genogroup 2.

Published

2015

26. Type I hypersensitivity is induced in cattle PBMC during Bluetongue virus Taiwan isolate infection

Author

Chia-Yi Chang, Chia-Chi Wang, Lenny Hao-Che Yen, Well Chia-Wei Yen, Jia-Ling Yang, and Fun-In Wang

Subjects

Hypersensitivity, Immediate, Cellular immunity, 040301 veterinary sciences, Lymphocyte, Immunology, Cattle Diseases, Biology, Virus Replication, Bluetongue, Peripheral blood mononuclear cell, Virus, 0403 veterinary science, 03 medical and health sciences, Th2 Cells, Immune system, medicine, Animals, 030304 developmental biology, Immunity, Cellular, 0303 health sciences, Innate immune system, General Veterinary, Monocyte, Autologous lymphocyte, 04 agricultural and veterinary sciences, Th1 Cells, Virology, Immunity, Innate, Culture Media, medicine.anatomical_structure, Leukocytes, Mononuclear, Cytokines, Cattle, Bluetongue virus

Abstract

Bluetongue is a fatal viral disease in ruminants and has serious economic impacts on the livestock industry. Interactions between bluetongue virus (BTV) and immune cells are interesting because of the unique scenarios in each combination of animal species/breed and viral virulence/serotype. This study investigated the immune response in bovine peripheral blood mononuclear cells (PBMC) infected by the BTV2 Taiwan strain. The replication of the virus was limited in monocytes and monocyte-derived macrophages (MDM), and lymphocytes were less permissive. The cytokine mRNA of IL-4 in PBMC was expressed earlier and in greater quantities than that of innate immunity (TNFα, IL-1β) and cell mediated immunity (CMI) (IFNγ), and the IL-4 protein was stably present in the culture medium until 72 h post-infection (hpi). Even in MDM reconstituted with autologous lymphocyte (MDM-Lymphocyte), the IL-4 still had high mRNA expression level. The level of IgE antibody also increased at 24-72 hpi, suggestive of the engagement of type I hypersensitivity in the pathogenesis. The anti-viral activity contained in the culture supernatant was transferrable to recipient infected PBMC from other cows. However, in infected MDM largely free of lymphocytes, mRNA expressions of IL-1β, TNFα and IL-12p40 were normally expressed from 6 to 48 hpi, supporting the notion that IL-4 elaborated by lymphocytes in PBMC mediated the inhibition of both innate immunity and CMI to BTV2. The sum of responses subsequent to the early IL-4 expression likely constitutes part of the unique scenario in the current BTV2-Cow experimental combination biased toward Th2 response.

Published

2020

27. In Vivo Demonstration of the Superior Replication and Infectivity of Genotype 2.1 with Respect to Genotype 3.4 of Classical Swine Fever Virus by Dual Infections

Author

Fun-In Wang, Hsin-Meng Liu, Kuo-Jung Tsai, Chin-Cheng Huang, Yu-Liang Huang, Ming-Chung Deng, and Chia-Yi Chang

Subjects

Microbiology (medical), genotype, virus shift, Population, lcsh:Medicine, Biology, classical swine fever virus, Article, Virus, Genotype, Animal mortality, Immunology and Allergy, education, Molecular Biology, Infectivity, education.field_of_study, Attenuated vaccine, General Immunology and Microbiology, lcsh:R, biology.organism_classification, Virology, Infectious Diseases, dual infections, Classical swine fever, viral replication, Viral load

Abstract

In Taiwan, the prevalent CSFV population has shifted from the historical genotype 3.4 (94.4 strain) to the newly invading genotype 2.1 (TD/96 strain) since 1996. This study analyzed the competition between these two virus genotypes in dual infection pigs with equal and different virus populations and with maternally derived neutralizing antibodies induced by a third genotype of modified live vaccine (MLV), to simulate that occurring in natural situations in the field. Experimentally, under various dual infection conditions, with or without the presence of maternal antibodies, with various specimens from blood, oral and fecal swabs, and internal organs at various time points, the TD/96 had consistently 1.51&minus, 3.08 log higher loads than those of 94.4. A second passage of competition in the same animals further widened the lead of TD/96 as indicated by viral loads. The maternally derived antibodies provided partial protection to both wild type CSFVs and was correlated with lower clinical scores, febrile reaction, and animal mortality. In the presence of maternal antibodies, pigs could be infected by both wild type CSFVs, with TD/96 dominating. These findings partially explain the CSFV shift observed, furthering our understanding of CSFV pathogenesis in the field, and are helpful for the control of CSF.

Published

2020

28. Molecular epidemiology of porcine reproductive and respiratory syndrome viruses isolated from 1991 to 2013 in Taiwan

Author

Hsiang-Jung Tsai, Fun-In Wang, Yu-Liang Huang, Ming-Chung Deng, Chia-Yi Chang, Tien-Shine Huang, and Chieh Chang

Subjects

medicine.medical_specialty, Genotype, Swine, Molecular Sequence Data, Population, Porcine Reproductive and Respiratory Syndrome, Taiwan, Genome, Viral, Open Reading Frames, Viral Proteins, Medical microbiology, Virology, Genetic variation, medicine, Animals, Porcine respiratory and reproductive syndrome virus, education, Phylogeny, Genetics, Molecular Epidemiology, Genetic diversity, education.field_of_study, biology, Phylogenetic tree, Molecular epidemiology, Genetic Variation, virus diseases, General Medicine, Porcine reproductive and respiratory syndrome virus, biology.organism_classification, Sequence Alignment

Abstract

Porcine reproductive and respiratory syndrome virus (PRRSV) was first identified in Taiwan in 1991, but the genetic diversity and evolution of PRRSV has not been thoroughly investigated over the past 20 years. The aim of this study was to bridge the gap in understanding of its molecular epidemiology. A total of 31 PRRSV strains were collected and sequenced. The sequences were aligned using the MUSCLE program, and phylogenetic analysis were performed by the maximum-likelihood method and the neighbor-joining method using MEGA 5.2 software. In the early 1990s, two prototype strains, WSV and MD001 of the North American genotype, were first identified. Over the years, both viruses evolved separately. The population dynamics of PRRSV revealed that the strains of the MD001 group were predominant in Taiwan. Evolution was manifested in changes in the nsp2 and ORF5 genes. In addition, a suspected newly invading exotic strain was recovered in 2013, suggesting that international spread is still taking place and that it is affecting the population dynamics. Overall, the results provide an important basis for vaccine development for the control and prevention of PRRS.

Published

2015

29. Phylogenetic Analysis of the Spike (S) Gene of the New Variants of Porcine Epidemic Diarrhoea Virus in Taiwan

Author

Chia-Yi Chang, Chian-Ren Jeng, Pei-Shiue Tsai, Y.-L. Huang, Ching Yang, Hung Yi Chiou, Victor Fei Pang, Hui-Wen Chang, and Ming-Chung Deng

Subjects

0301 basic medicine, Swine, Porcine epidemic diarrhoea, Taiwan, 03 medical and health sciences, Phylogenetics, Animals, Amino Acid Sequence, Indel, Gene, Phylogeny, Swine Diseases, Genetics, Genetic diversity, General Veterinary, General Immunology and Microbiology, biology, Phylogenetic tree, Porcine epidemic diarrhea virus, Outbreak, General Medicine, biology.organism_classification, Virology, 030104 developmental biology, Spike Glycoprotein, Coronavirus, Coronavirus Infections, Sequence Alignment

Abstract

New variants of porcine epidemic diarrhoea virus (PEDV), which emerged in Taiwan in late 2013, have caused a high morbidity and mortality in neonatal piglets. To investigate the molecular characteristics of the spike (S) gene of the emerging Taiwan PEDV strains for a better understanding of the genetic diversity and relationship among the Taiwan new variants and the global PEDVs, full-length S genes of PEDVs from nine 1-7 day-old piglets from three pig farms in the central and southern Taiwan were sequenced and analysed. The result of phylogenetic analysis of the S gene showed that all the Taiwan PEDV strains were closely related to the non-S INDEL strains from US, Canada and China, suggesting a common ancestor for these strains. As compared with the historic PEDVs and CV777-based vaccine strains, the nine Taiwan PEDV variants shared almost the same genetic signatures as the global non-S INDEL strains, including a series of insertions, deletions and mutations in the amino terminal as well as identical mutations in the neutralizing epitopes of the S gene. The high similarity of the S protein among the Taiwan and the globally emerged non-S INDEL PEDV strains suggests that the Taiwan new variants may share similar pathogenesis and immunogenicity as the global outbreak variants. The development of a novel vaccine based on the Taiwan or the global non-S INDEL strains may be contributive to the control of the current global porcine epidemic diarrhoea outbreaks.

Published

2015

30. High Abundance and Genetic Variability of Atypical Porcine Pestivirus in Pigs from Europe and Asia

Author

Chia-Yi Chang, Denise Meyer, Michael Wendt, Vesna Milićević, Gian Mario De Mia, Francesco Feliziani, Adam Grundhoff, Ming-Chung Deng, Yuan Sun, Gökce Nur Cagatay, Paul Becher, Nicole Fischer, Alexander Postel, and Hua-Ji Qiu

Subjects

0301 basic medicine, Microbiology (medical), Asia, genome detection, 040301 veterinary sciences, Epidemiology, Swine, lcsh:Medicine, serology, Genome, Viral, Biology, Viral Nonstructural Proteins, Antibodies, Viral, Genome, lcsh:Infectious and parasitic diseases, Serology, 0403 veterinary science, 03 medical and health sciences, genetic variability, geographic distribution, Research Letter, Animals, lcsh:RC109-216, viruses, Genetic variability, Phylogeny, atypical porcine pestivirus, Swine Diseases, lcsh:R, Serine Endopeptidases, Pestivirus Infections, Genetic Variation, 04 agricultural and veterinary sciences, Serum samples, Virology, zoonoses, Geographic distribution, Europe, 030104 developmental biology, Infectious Diseases, Animals, Newborn, Atypical porcine pestivirus, Asymptomatic Diseases, Pestivirus, RNA, Viral, RNA Helicases, Antibody detection, High Abundance and Genetic Variability of Atypical Porcine Pestivirus in Pigs from Europe and Asia

Abstract

Atypical porcine pestivirus (APPV) was recently reported to be associated with neurologic disorders in newborn piglets. Investigations of 1,460 serum samples of apparently healthy pigs from different parts of Europe and Asia demonstrate a geographically wide distribution of genetically highly variable APPV and high APPV genome and antibody detection rates.

Published

2017

31. THE OUTBREAK OF PORCINE EPIDEMIC DIARRHEA IN TAIWAN

Author

Yu-Liang Huang, Chieh Chang, Shu-Ting Kuo, Ming-Chung Deng, Chia-Yi Chang, Tien-Shine Huang, and Hsiang-Jung Tsai

Subjects

biology, business.industry, Outbreak, biology.organism_classification, medicine.disease_cause, Virology, Group A, Epidemic diarrhea, Diarrhea, Rotavirus, Herd, Vero cell, Medicine, medicine.symptom, business, Porcine epidemic diarrhea virus

Abstract

Between January 20 and April 30 of 2014, a total of 103 diarrhea cases from 47 herds in 13 counties were submitted to the Animal Health Research Institute. In 20 of the 25 herds with detail history, severe diarrhea and vomiting occurred in pigs of all ages, with mortality approaching 100% in suckling pigs. The differential etiologies, including transmissible gastroenteritis virus (TGEV), porcine epidemic diarrhea virus (PEDV), and porcine group A rotavirus (GARV), were tested by reverse transcription polymerase chain reaction (RT-PCR). The RT-PCR of PEDV was positive in 79 cases of 34 herds. Attempts to isolate PEDV in Vero cells revealed that only 7 specimens from 7 herds showed the cytopathic effects (CPEs) of fusion and syncytia. These CPEs were indeed caused by PEDV, as confirmed by RT-PCR, sequencing, and electron microscopy. Sequence comparisons of diarrhea samples and isolated PEDV were assayed by MEGA 5.2 software. The newly isolated PEDV/Taiwan/2014 strains were clustered in group 2 as novel PEDV, together with strains PEDV/USA/2013, PEDV/China/2011–2013, PEDV/Thailand/2007–2008, and PEDV/Korea/2008–2009, whereas the classical CV777 strain was placed in a separate group 1. These results indicated that a novel PEDV was the cause of the recent new outbreak of diarrhea in Taiwan.

Published

2014

32. THE CLASSICAL SWINE FEVER VIRUS LPC VACCINE AND E2 GLYCOPROTEINS PROTECT FROM CHALLENGE WITH GENOTYPICALLY HOMOLOGOUS VIRUSES

Author

Yen-Chun Tung, Chia-Yi Chang, and Fun-In Wang

Subjects

chemistry.chemical_classification, Attenuated vaccine, biology, Outbreak, Virulence, biology.organism_classification, Virology, Virus, Microbiology, Reverse transcription polymerase chain reaction, chemistry, Classical swine fever, Genotype, Glycoprotein

Abstract

Classical swine fever (CSF) is an acute viral disease that has high contagion and high mortality in domestic pigs and wild boars. In Taiwan, classical swine fever virus (CSFV) of subgroup 3.4 (Native strain; 94.4/IL/94/TWN) was almost 100% isolated before 1993. In 1994, Subgroup 2.1 (Exotic strain; TD/96/TWN) was first detected, and since a severe outbreak in 1995, it has dominated the field. There is a concern that the Lapinized Philippines Coronel (LPC) of genotype 1.1, widely used in Taiwan, may not completely protect animals from the currently prevalent genotype 2.1 CSFV in the field. In this study, pigs were immunized by LPC vaccine and E2 glycoprotein expressed from cloned genes of LPC, TD/96, and 94.4 viruses, respectively before challenge with genotypically homologous viruses. The viral distributions and intensity after challenge were analyzed by using reverse transcription polymerase chain reaction (RT-PCR) and immunohistochemistry (IHC). Both LPC vaccine and E2 glycoproteins provided significant protection potency from CSFV. However, the LPC vaccine antigen was noted, although to a significantly milder degree (p < 0.05) than in the positive control, in lymphoid follicles of the lymph node and in various organs after the vaccinated animals were challenged with virulent ALD strain. Tissues from all experimental groups were tested negative by RT-PCR. In conclusion, the LPC attenuated virus and E2 glycoproteins offer protection against their genotypically homologous viruses. A change of vaccine seed to genotype 2.1 may be an option to combat the currently prevalent genotype 2.1 CSFVs in the field.

Published

2014

33. Multiple models of porcine teschovirus pathogenesis in endemically infected pigs

Author

Ya-Mei Chen, Kuo-Chao Chiu, Chia-Yi Chang, Shu-Chun Chiu, Chih-Lin Yang, Yi-Chien Lin, Shu-Chia Hu, and Fun-In Wang

Subjects

Pathology, medicine.medical_specialty, Endemic Diseases, Teschovirus, Swine, Spleen, In situ hybridization, Biology, Sensitivity and Specificity, Microbiology, Pathogenesis, Feces, medicine, Animals, Swine Diseases, Picornaviridae Infections, General Veterinary, Reverse Transcriptase Polymerase Chain Reaction, Reproducibility of Results, General Medicine, Viral Load, medicine.disease, Virology, Reverse transcription polymerase chain reaction, medicine.anatomical_structure, Real-time polymerase chain reaction, Tonsil, Viral load, Encephalitis

Abstract

Porcine teschoviruses (PTVs) belong to the genus Teschovirus within the family Picornaviridae. PTVs are universal contaminants in pig herds in endemic and multi-infection status. To further the understanding of PTV pathogenesis in endemically infected pigs, a set of samples was studied by real time reverse transcription PCR (qRT-PCR) to quantitate viral loads in tissues and by in situ hybridization (ISH) to locate PTV signals in target cells, both targeting the 5'-NTR. cRNA of PTV-1 and PTV-7, in vitro transcribed from cloned fragments of 5'-NTR of 2 viruses, was used to construct standard curves and to run parallel in qRT-PCR, which had detection limits of 10(1) copies/per reaction, with a linearity in between 10(1) and 10(7) copies/per reaction and correlation coefficients of 0.997-0.9988. The qRT-PCR specifically amplified RNA from PTV-1 to -11, while excluding those of Sapelovirus, PEV-9 and PEV-10. Inguinal lymph node (LN) had the highest viral load of all (assuming 100%), followed by ileac LN (89-91%), tonsil (66-68%), ileum (59-60%), spleen (38-40%), and kidney (30-31%), with the least in brain (22.9%) of the inguinal LN. The 22.9% load in brain was higher than that anticipated from a simple fecal-oral-viremia operative model. The results suggested in addition that intranasal infection and retrograding axonal infection from the tonsils were equally operative and significant. ISH revealed PTV signals in a wider variety of tissue cell types than before. PTV signals were noted most impressively in neurons of the cerebral cortex and hippocampus and in the dark zone of the germinal center and adjacent paracortex of regional LN. Multiple operative models indicated that PTVs seemed to have no difficulty invading the brain. The key to whether encephalitis would ensue resided in the animal's immune status and topographic differences of neurons' susceptibilities to PTVs. When common co-infected agents are present, as is typical in the field, PTVs may synergize in causing diseases.

Published

2014

34. First Finding of Southeast Asia Topotype of Foot-and-Mouth Disease Virus in Kinmen, Taiwan, in the 2012 Outbreak

Author

Ming-Chung Deng, Yeou-Liang Lin, Chia-Yi Chang, Fan Lee, Chu-Hsiang Pan, and Hsiang-Jung Tsai

Subjects

Serotype, Veterinary medicine, Swine, Molecular Sequence Data, Taiwan, Enzyme-Linked Immunosorbent Assay, Culling, Biology, History, 21st Century, Virus, Disease Outbreaks, Virology, medicine, Animals, Cluster Analysis, East Asia, Southeast Asia topotype, Phylogeny, DNA Primers, Kinmen, Full Paper, Base Sequence, Geography, General Veterinary, Foot-and-mouth disease, Phylogenetic tree, Reverse Transcriptase Polymerase Chain Reaction, Outbreak, Sequence Analysis, DNA, medicine.disease, biology.organism_classification, Foot-and-Mouth Disease Virus, Foot-and-Mouth Disease, Foot-and-mouth disease virus

Abstract

Foot-and-mouth disease virus, a member of genus Aphthovirus within the family Picornaviridae, affects cloven-hoofed animals, causing foot-and-mouth disease characterized by vesicle development. The Southeast Asia topotype, one of the topotypes within serotype O of the virus, is prevalent in some Asian countries, but had not previously been found in Taiwan. The topotype was first found in pigs in Kinmen Island, Taiwan, in 2012 and identified by nucleotide sequence comparison and phylogenetic analysis. Outbreaks were reported at 4 farms, resulting in the culling of 628 pigs and 1 cattle. Pigs were the only species infected during the outbreak. The incursion of Southeast Asia topotype into Taiwan implies the expansion of the topotype in East Asia.

Published

2014

35. The role of porcine teschovirus in causing diseases in endemically infected pigs

Author

Victor Fei Pang, Shu-Chia Hu, Chin-Cheng Huang, Shu-Chun Chiu, Chia-Yi Chang, Chih-Cheng Chang, and Fun-In Wang

Subjects

Swine Diseases, Serotype, Picornaviridae Infections, Genotype, Teschovirus, General Veterinary, biology, Reverse Transcriptase Polymerase Chain Reaction, Swine, Encephalomyelitis, Virulence, General Medicine, biology.organism_classification, medicine.disease, Microbiology, Virology, Viral Proteins, medicine, Animals, Enzootic, Genotyping, Encephalitis

Abstract

Porcine teschoviruses (PTVs) belong to the genus Teschovirus within the family Picornaviridae. Hitherto, PTVs have had 13 serotypes associated with a variety of clinical diseases. The virulent PTV-1 strains were associated with highly fatal, nonsuppurative encephalomyelitis of pigs (Teschen disease) in the 1930-1950s. Today, less virulent Talfan strains of PTV-1 are more widespread, and PTVs have contaminated swine herds worldwide (endemic or enzootic) together with a variety of common swine pathogens (multi-infection status). The aim of this study was to investigate the extent to which PTVs play a role in causing diseases in the field, under the endemic and multi-infection situation, when most pigs in the herds are infected and immune. Based on the fecal-oral model of pathogenesis, a set of 15 organs were collected from 30 culled post-weanling piglets of 4-8 weeks old. For nested RT-PCR targeted on the 5'-NTR, the PTV detection rate was 96.7% (by heads), confirming the endemic status, and infection was most commonly detected in the intestines (averaged 61%) and lymphoid organs (averaged 59%), followed by visceral organs (averaged 37%) and the CNS (different parts varied from 17 to 47%). The correlation of PTVs detected by nested RT-PCR and a histological lesion were analyzed by Chi-square test showing that in the field situation only non-suppurative encephalitis in the caudal part of the brain (P=0.054) may be marginal significantly attributed to infection by PTVs. By genotyping based on partial VP1 sequences, 5 serotypes, namely PTV-1, -4, -6, -7, and -11, were identified, with some animals having two serotypes co-existed in different organs.

Published

2012

36. Competitive replication kinetics and pathogenicity in pigs co-infected with historical and newly invading classical swine fever viruses

Author

Kuo-Jung Tsai, Hsin-Meng Liu, Fun-In Wang, Chia-Yi Chang, Yu-Liang Huang, Ming-Chung Deng, and Chin-Cheng Huang

Subjects

0301 basic medicine, Cancer Research, Genotype, Swine, Virus Attachment, Virus Replication, Virus, Cell Line, Classical Swine Fever, 03 medical and health sciences, Virology, Animals, Feces, biology, Inoculation, Outbreak, Genetic Variation, Viral Load, biology.organism_classification, Kinetics, 030104 developmental biology, Infectious Diseases, Viral replication, Classical swine fever, Classical Swine Fever Virus, Symptom Assessment, Viral load

Abstract

Classical swine fever (CSF), an economically important and highly contagious disease of pigs, is caused by classical swine fever virus (CSFV). In Taiwan, CSFVs from field outbreaks belong to two distinct genotypes. The historical genotype 3.4 dominated from the 1920s to 1996, and since 1996, the newly invading genotype 2.1 has dominated. To explain the phenomenon of this virus shift in the field, representative viruses belonging to genotypes 2.1 and 3.4 were either inoculated alone (single infection) or co-inoculated (co-infection), both in vivo and in vitro, to compare the virus replication and pathogenesis. In pigs co-infected with the genotype 2.1 TD/96/TWN strain and the genotype 3.4 94.4/IL/94/TWN strain, the newly invading genotype 2.1 was detected earlier in the blood, oral fluid, and feces, and the viral loads were consistently and significantly higher than that of the historical genotype 3.4. In cell cultures, the ratio of secreted virus to cell-associated virus of the genotype 2.1 strain was higher than that of the genotype 3.4 strain. This study is the first to demonstrate a possible explanation of virus shift in the field, wherein the newly invading genotype 2.1 replicates more efficiently than did genotype 3.4 and outcompetes the replication and pathogenicity of genotype 3.4 in pigs in the field.

Published

2016

37. EFFECT OF SILYMARIN ON LIPID AND ALCOHOL METABOLISM IN MICE FOLLOWING LONG-TERM ALCOHOL CONSUMPTION

Author

Yi-Chen Chen, Chung-Hsi Chou, Chih-Hsien Chiu, Wei-Lun Tsai, Meng-Chieh Hsu, and Chia-Yi Chang

Subjects

Pharmacology, medicine.medical_specialty, Ethanol, biology, Chemistry, Biophysics, Cell Biology, medicine.disease, chemistry.chemical_compound, Fatty acid synthase, Endocrinology, Hepatoprotection, Biochemistry, Internal medicine, Lipogenesis, medicine, biology.protein, Alcoholic fatty liver, Steatosis, Ethanol metabolism, Food Science, Alcohol dehydrogenase

Abstract

An alcoholic fatty liver disease was induced by feeding an ethanol diet. Eight mice per group were randomly assigned to each following group: (1) control liquid diet + 0.5 mL ddH2O; (2) control liquid diet + 150 mg silymarin/kg body weight (BW) in 0.5 mL ddH2O; (3) ethanol liquid diet + 0.5 mL ddH2O; and (4) ethanol liquid diet + 150 mg silymarin/kg BW in 0.5 mL ddH2O. The ethanol diet increased (P

Published

2011

38. Design Migration From Peripheral ASIC Design to Area-I/O Flip-Chip Design by Chip I/O Planning and Legalization

Author

Chia-Yi Chang and Hung-Ming Chen

Subjects

Engineering, business.industry, Circuit design, Integrated circuit design, Integrated circuit, Chip, Integrated circuit layout, Power (physics), law.invention, Microprocessor, Application-specific integrated circuit, Flip chip design, Hardware and Architecture, law, Embedded system, Hardware_INTEGRATEDCIRCUITS, Enhanced Data Rates for GSM Evolution, Integrated circuit packaging, Electrical and Electronic Engineering, business, Computer hardware, Software, Flip chip

Abstract

Due to higher input/output (I/O) count and power delivery problem in deep submicrometer (DSM) regime, flip-chip technology, especially for area-array architecture, has provided more opportunities for adoption than traditional peripheral bonding design style in high-performance application-specific integrated circuit and microprocessor designs. However, it is hard to tell which technique can provide better design cost edge in usually concerned perspectives. In this paper, we present a methodology to convert a previous peripheral bonding design to an area-I/O flip-chip design. It is based on an I/O buffer modeling and an I/O planning algorithm to legalize I/O buffer blocks with core placement without sacrificing much of the previous optimization in the original core placement. The experimental results have shown that we have achieved better area and I/O wirelength in area-IO flip-chip configuration (especially for pad-limit designs), compared with peripheral bonding configuration in packaging consideration.

Published

2008

39. Baculovirus-Derived Hemagglutinin Vaccine Protects Chickens from Lethal Homologous Virus H5N1 Challenge

Author

Chin-Cheng Huang, Chia-Yi Chang, Ming-Shiuh Lee, Y. L. Chen, S. H. Wu, Yeou-Liang Lin, H. C. Cheng, Maw-Sheng Chien, and M. C. Deng

Subjects

viruses, animal diseases, Hemagglutinins, Viral, Biology, medicine.disease_cause, Virus, Microbiology, law.invention, law, Complementary DNA, Influenza A Virus, H9N2 Subtype, medicine, Animals, Cloning, Molecular, Hemagglutination assay, Influenza A Virus, H5N1 Subtype, General Veterinary, virus diseases, Hemagglutinin, Virology, Recombinant Proteins, Reverse genetics, Influenza A virus subtype H5N1, Virus Shedding, Titer, Ducks, Influenza Vaccines, Influenza in Birds, Recombinant DNA, Chickens

Abstract

Since outbreaks of highly pathogenic avian influenza (HPAI) in both human and poultry from 2003, it is critical to have effective vaccines. A cDNA fragment coding the entire hemagglutinin (HA) gene derived from an H5N1 strain (A/duck/China/E319-2/03) was cloned and expressed using the baculovirus system. Two weeks after receiving two doses of recombinant HA (rHA) vaccines, chickens develop high antibody response for hemagglutination inhibition (HI) at titer 7.2 log(2). Challenge studies revealed that vaccinated chickens with HI titers greater than 3 log(2) could have immunoprotection against the same HPAI H5N1 strain virus challenge through intranasal route. Additionally, HI titer of 5 log(2) determined whether the live viruses could not be detected from oropharyngeal, cloacal discharge or in tissues. This result suggests that the rHA expressed from baculovirus system could be a candidate for the development of a safe and efficient subunit vaccine for HPAI (H5N1).

Published

2008

40. Characterization of an H5N1 avian influenza virus from Taiwan

Author

Happy K. Shieh, Ming-Chung Deng, J.Z. Shiau, Yeou-Liang Lin, Chia-Yi Chang, Chin-Cheng Huang, and Ming-Shiuh Lee

Subjects

Male, animal diseases, viruses, Molecular Sequence Data, Orthomyxoviridae, Taiwan, Virulence, Hemagglutinin Glycoproteins, Influenza Virus, medicine.disease_cause, Polymerase Chain Reaction, Microbiology, Virus, Mice, Influenza A virus, medicine, Animals, Amino Acid Sequence, Phylogeny, Disease Reservoirs, Mice, Inbred BALB C, Base Sequence, Influenza A Virus, H5N1 Subtype, General Veterinary, biology, Lethal dose, Gene Amplification, virus diseases, General Medicine, biology.organism_classification, Virology, Influenza A virus subtype H5N1, Specific Pathogen-Free Organisms, Titer, Ducks, Influenza in Birds, Biological Assay, Viral disease, Chickens

Abstract

In 2003, an avian influenza (AI) virus of H5N1 subtype (A/Duck/China/E319-2/03; Dk/CHN/E319-2/03) was isolated from a smuggled duck in Kinmen Island of Taiwan. Phylogenetic analysis and pairwise comparison of nucleotide and amino acid sequences revealed that the virus displayed high similarity to the H5N1 viruses circulating in Asia during 2004 and 2005. The hemagglutinin (HA) protein of the virus contained multiple basic amino acid residues (-RERRRKR-) adjacent to the cleavage site between the HA1 and HA2 domains, showing the highly pathogenic (HP) characteristics. The HP phenotype was confirmed by experimental infection of chickens, which led up to 100% mortality within 24-72h postinfection. The virus replicated equally well in the majority of organs of the infected chickens with titers ranging from 10(7.5) to 10(4.7) 50% embryo lethal dose (ELD50) per gram of tissue. In a mouse model the virus exhibits low pathogenic characteristics with a lethal infection observed only after applying high inoculating dose (>or=10(7.6) ELD50) of the virus. The infectious virus particles were recovered only from the pulmonary system including trachea and lungs. Our study suggests that ducks infected with H5N1 AIV of HPAI pathotype showing no disease signs can carry the virus silently and that bird smuggling represent a serious risk for H5N1 HPAI transmission.

Published

2007

41. Rabies Virus Infection in Ferret Badgers (Melogale moschata subaurantiaca) in Taiwan: A Retrospective Study

Author

Kuo-Jung Tsai, Hsiang-Jung Tsai, Kuo-Yun Fang, Wei-Cheng Hsu, Wei-Chieh Chuang, Shih-Wei Chang, Te-En Lin, Chia-Yi Chang, Yang-Chang Tu, Jen-Chieh Chang, Yung-Fu Chang, and Shu-Hwae Lee

Subjects

Veterinary medicine, Rabies, animal diseases, Population, Carnivora, Taiwan, medicine.disease_cause, medicine, Animals, education, Direct fluorescent antibody, Ecology, Evolution, Behavior and Systematics, Phylogeny, Retrospective Studies, education.field_of_study, Ecology, biology, Rabies virus, Retrospective cohort study, Ferret-badger, bacterial infections and mycoses, biology.organism_classification, medicine.disease, Reverse transcription polymerase chain reaction, Melogale moschata

Abstract

Fifteen ferret badgers (Melogale moschata subaurantiaca), collected 2010-13 and stored frozen, were submitted for rabies diagnosis by direct fluorescent antibody test and reverse transcription PCR. We detected seven positive animal samples, including some from 2010, which indicated that the ferret badger population in Taiwan had been affected by rabies prior to 2010.

Published

2015

42. Microtubular spindle dynamics and chromosome complements from somatic cell nuclei haploidization in mature mouse oocytes and developmental potential of the derived embryos

Author

Shee-Uan Chen, Fon Jou Hsieh, Hong Nerng Ho, Yu Shih Yang, Chien Cheng Lu, and Chia Yi Chang

Subjects

Somatic cell, Cloning, Organism, Embryonic Development, Spindle Apparatus, Haploidy, Biology, Mice, Pregnancy, medicine, Animals, Cell Nucleus, Genetics, Zygote, Rehabilitation, Obstetrics and Gynecology, Chromosome, Embryo, Oocyte, Chromosomes, Mammalian, Cell biology, Mice, Inbred C57BL, Cell nucleus, medicine.anatomical_structure, Reproductive Medicine, Mice, Inbred DBA, Premature chromosome condensation, Oocytes, Female, Multipolar spindles

Abstract

BACKGROUND: The aim of this study was to investigate haploidization of somatic cell nuclei in non-enucleated mature oocytes regarding spindle formation, chromosomes and developmental potential. METHODS: Mouse cumulus cells were injected into metaphase II oocytes. Some injected oocytes were examined for morphological changes of chromosomes and the spindle immediately, and at 30 min, 1 h or 2 h after the injections. The remaining oocytes were activated by Sr 2+ after various incubation periods and observed for formation of a second polar body and pseudo-polar body. Cytogenetic analysis was performed for some of the resulting zygotes. The progress to blastocysts in vitro and the possibility of conception in vivo were assessed. RESULTS: Immediately after injection, the cumulus cell nucleus was still in interphase without spindle formation. The occurrence of premature chromosome condensation (PCC) and spindle formation increased as the incubation time increased. The percentages of activated oocytes increased with the incubation time after nuclear transfer, but the difference was not significant between 1 (58%) and 2 h (62%). The incidence of chromosomal aberrations was high for the derived embryos. Development in vitro was poor, and no procreation of pups occurred after transfer of the 324 embryos. CONCLUSIONS: The PCC and spindle formation induced by cumulus cell nuclei in mature oocytes was time dependent, as was the chance for successful activation. The chromosomal abnormalities from segregation errors presented one obvious cause, apart from the potential epigenetic defects, of developmental failure of the semi-cloned embryos.

Published

2004

43. The application of a duplex reverse transcription real-time PCR for the surveillance of porcine reproductive and respiratory syndrome virus and porcine circovirus type 2

Author

Fun-In Wang, Ming-Chung Deng, Hsiang-Jung Tsai, Chia-Yi Chang, Chia-Huei Yang, Yu-Liang Huang, and Chieh Chang

Subjects

Circovirus, Swine, viruses, animal diseases, Porcine Reproductive and Respiratory Syndrome, Antibodies, Viral, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Serology, Virology, Animals, Porcine respiratory and reproductive syndrome virus, Circoviridae Infections, Swine Diseases, biology, Reverse Transcriptase Polymerase Chain Reaction, Antibody titer, virus diseases, Viral Load, biology.organism_classification, Porcine reproductive and respiratory syndrome virus, Porcine circovirus, Real-time polymerase chain reaction, Epidemiological Monitoring, biology.protein, Antibody, Viral load, Multiplex Polymerase Chain Reaction

Abstract

The porcine respiratory disease complex (PRDC) is the most common disease in commercial pork production worldwide. Porcine circovirus type 2 (PCV2) and porcine reproductive and respiratory syndrome virus (PRRSV), the most important agents of PRDC, usually co-infect in the same pigs. In order to survey the prevalence of PCV2 and PRRSV in pigs of various ages, a duplex reverse transcription real-time PCR (DRT-rPCR) was developed and applied in the present study. The DRT-rPCR did not cross-react with 10 swine viruses other than PCV2 and PRRSV, with detection limits of 1 TCID50/ml for PCV2 and 6.3 TCID50/ml for PRRSV. Surveillance using DRT-rPCR together with serology revealed that in the five farms studied, pigs were most susceptible to PRRSV at 6-14 weeks of age, whereas susceptibility to PCV2 varied by the management system but was mostly at 10-14 weeks of age. Cross analysis of viral loads versus antibody titers revealed that PCV2 load was affected negatively by anti-PCV2 ORF2 antibody, which constituted the most important non-infectious factor affecting the development of PMWS. These results indicated that DRT-rPCR was developed and applied successfully to the surveillance of PCV2 and PRRSV in the field.

Published

2013

44. The challenges of classical swine fever control: modified live and E2 subunit vaccines

Author

Chin-Cheng Huang, Fun-In Wang, Chia-Yi Chang, Yu-Liang Huang, and Ming-Chung Deng

Subjects

Cancer Research, Attenuated vaccine, Swine, Viral Vaccines, Marker vaccine, Biology, biology.organism_classification, Antibodies, Viral, Virology, Virus, Diva, Vaccination, Classical Swine Fever, Infectious Diseases, Immune system, Antigen, Classical swine fever, Classical Swine Fever Virus, Immunology, Vaccines, Subunit, Animals

Abstract

Classical swine fever (CSF) is an economically important, highly contagious disease of swine worldwide. CSF is caused by classical swine fever virus (CSFV), and domestic pigs and wild boars are its only natural hosts. The two main strategies used to control CSF epidemic are systematic prophylactic vaccination and a non-vaccination stamping-out policy. This review compares the protective efficacy of the routinely used modified live vaccine (MLV) and E2 subunit vaccines and summarizes the factors that influence the efficacy of the vaccines and the challenges that both vaccines face to CSF control. Although MLV provide earlier and more complete protection than E2 subunit vaccines, it has the drawback of not allowing differentiation between infected and vaccinated animals (DIVA). The marker vaccine of E2 protein with companion discriminatory test to detect antibodies against E rns allows DIVA and is a promising strategy for future control and eradication of CSF. Maternal derived antibody (MDA) is the critical factor in impairing the efficacy of both MLV and E2 subunit vaccines, so the well-designed vaccination programs of sows and piglets should be considered together. Because of the antigen variation among various genotypes of CSFV, antibodies raised by either MLV or subunit vaccine neutralize genotypically homologous strains better than heterologous ones. However, although this is not a major concern for MLV as the induced immune responses can protect pigs against the challenge of various genotypes of CSFVs, it is critical for E2 subunit vaccines. It is thus necessary to evaluate whether the E2 subunit vaccine can completely protect against the current prevalent strains in the field. An ideal new generation of vaccine should be able to maintain the high protective efficiency of MLV and overcome the problem of antigenic variations while allowing for DIVA.

Published

2013

45. Porcine circovirus type 2 decreases the infection and replication of attenuated classical swine fever virus in porcine alveolar macrophages

Author

Chia-Yi Chang, Victor Fei Pang, Chian-Ren Jeng, Yu-Liang Huang, and Ming-Chung Deng

Subjects

Circovirus, Swine, animal diseases, Dose-Response Relationship, Immunologic, Real-Time Polymerase Chain Reaction, Virus Replication, Virus, Attenuated strain, Microbiology, In vitro model, Classical Swine Fever, chemistry.chemical_compound, Macrophages, Alveolar, Animals, Circoviridae Infections, General Veterinary, biology, virus diseases, Viral Vaccines, biology.organism_classification, Virology, Specific Pathogen-Free Organisms, Porcine circovirus, chemistry, Oligodeoxyribonucleotides, Classical swine fever, Classical Swine Fever Virus, Alveolar macrophage, Cytokines, RNA, Viral, Negative correlation, DNA

Abstract

Recently, it has been noted that porcine circovirus type 2 (PCV2) infection adversely affects the protective efficacy of Lapinized Philippines Coronel (LPC) vaccine, an attenuated strain of classical swine fever virus (CSFV), in pigs. In order to investigate the possible mechanisms of the PCV2-derived interference, an in vitro model was established to study the interaction of LPC virus (LPCV) and PCV2 in porcine alveolar macrophages (AMs). The results showed that PCV2 reduced the LPCV infection in AMs and the levels of PCV2-derived interference were dose-dependent. The PCV2-derived interference also reduced the replication level of LPCV in AMs. The full-length PCV2 DNA and its fragment DNA C9 CpG-ODN were involved in the reduction of LPCV infection in AMs, whereas UV-inactivated PCV2 was not. In addition, a moderate negative correlation between the LPCV antigen-containing rate and IFN-γ production was observed, and had a dose-dependent trend with the level of PCV2-inoculation. The results of the present study may partially explain how PCV2 infection interferes with the efficacy of LPC vaccine.

Published

2013

46. High Abundance and Genetic Variability of Atypical Porcine Pestivirus in Pigs from Europe and Asia.

Author

Postel, Alexander, Meyer, Denise, Cagatay, Gökce Nur, Feliziani, Francesco, De Mia, Gian Mario, Fischer, Nicole, Grundhof, Adam, Milićević, Vesna, Ming-Chung Deng, Chia-Yi Chang, Hua-Ji Qiu, Yuan Sun, Wendt, Michael, Becher, Paul, Grundhoff, Adam, Deng, Ming-Chung, Chang, Chia-Yi, Qiu, Hua-Ji, and Sun, Yuan

Subjects

PESTIVIRUS diseases, CORONAVIRUSES, VIRUS diseases in swine, NEUROLOGICAL disorders, BLOOD serum analysis, ANIMAL experimentation, ANIMAL populations, BIOLOGICAL evolution, FLAVIVIRUSES, GENETICS, GENOMES, PROTEINS, PROTEOLYTIC enzymes, RNA, SWINE, TRANSFERASES, VIRAL antibodies, SYMPTOMS, FLAVIVIRAL diseases, INFECTIOUS disease transmission

Abstract

Atypical porcine pestivirus (APPV) was recently reported to be associated with neurologic disorders in newborn piglets. Investigations of 1,460 serum samples of apparently healthy pigs from different parts of Europe and Asia demonstrate a geographically wide distribution of genetically highly variable APPV and high APPV genome and antibody detection rates. [ABSTRACT FROM AUTHOR]

Published

2017

47. Antigenic mimicking with cysteine-based cyclized peptides reveals a previously unknown antigenic determinant on E2 glycoprotein of classical swine fever virus

Author

Chin-Cheng Huang, Yeou-Liang Huang, Yu-Ju Lin, Fun-In Wang, Chia-Yi Chang, Ming-Chung Deng, Hsin-Meng Liu, and Yeou-Liang Lin

Subjects

Cancer Research, medicine.drug_class, Swine, DNA Mutational Analysis, Monoclonal antibody, Antibodies, Viral, Peptides, Cyclic, Epitope, Epitopes, Antigen, Viral Envelope Proteins, Virology, medicine, Animals, Cysteine, Antigens, Viral, biology, Linear epitope, Antibodies, Monoclonal, biology.organism_classification, Molecular biology, Infectious Diseases, Amino Acid Substitution, Classical swine fever, Polyclonal antibodies, Classical Swine Fever Virus, biology.protein, Antibody, Epitope Mapping, Conformational epitope

Abstract

Envelope glycoprotein E2 of classical swine fever virus (CSFV) is the major antigen that induces neutralizing antibodies in infected pigs. The conformational epitope(s) on B/C domains were mapped to the N-terminal 90 residues of E2 between amino acids 690 and 779 (Chang et al., 2010a). To mimic the conformational epitopes, a set of synthetic cyclized peptides spanning the B/C domains of E2 were used to react with monoclonal antibodies (mAbs) against E2 and with swine anti-CSFV polyclonal sera. All antibodies recognized a highest common element, (753)RYLASLHKKALPTSV(767), on the double-looped peptides. This epitope region has not been revealed previously in the literature. Both substitution-scanning of residues (753)RYLASLHKKALPTSV(767) on a double-looped peptide and site-directed mutagenesis of expressed E2 demonstrated that residues (761)K, (763)L and (764)P were critical for the reactivity with mAbs. In addition, the up- and downstream residues (753)R, (754)Y, (755)L and (765)T were also crucial. Alignment showed that this stretch of amino acids was relatively conserved among various CSFVs. Thus, we identified a motif (753)RYLASLHKKALPT(765), which may be part of group-specific antigen and important for the structural integrity of conformational epitope recognition.

Published

2011

48. Porcine circovirus type 2 (PCV2) infection decreases the efficacy of an attenuated classical swine fever virus (CSFV) vaccine

Author

Ming-Chung Deng, Yi-Chieh Tsai, Yu-Liang Huang, Chian-Ren Jeng, Chun-Ming Lin, Mi-Yuan Chia, Chia-Yi Chang, and Victor Fei Pang

Subjects

Circovirus, Swine, animal diseases, Taiwan, Viremia, Biology, Vaccines, Attenuated, Virus, Classical Swine Fever, Feces, medicine, Animals, Lymphocytes, Viral shedding, Circoviridae Infections, Saliva, lcsh:Veterinary medicine, General Veterinary, Viral Vaccine, Research, virus diseases, Viral Vaccines, biology.organism_classification, medicine.disease, Virology, veterinary(all), Antibodies, Neutralizing, Virus Shedding, Vaccination, Porcine circovirus, Immunoglobulin M, Classical swine fever, Classical Swine Fever Virus, Immunology, lcsh:SF600-1100, lipids (amino acids, peptides, and proteins)

Abstract

The Lapinized Philippines Coronel (LPC) vaccine, an attenuated strain of classical swine fever virus (CSFV), is an important tool for the prevention and control of CSFV infection and is widely and routinely used in most CSF endemic areas, including Taiwan. The aim of this study was to investigate whether PCV2 infection affects the efficacy of the LPC vaccine. Eighteen 6-week-old, cesarean-derived and colostrum-deprived (CDCD), crossbred pigs were randomly assigned to four groups. A total of 105.3 TCID50 of PCV2 was experimentally inoculated into pigs through both intranasal and intramuscular routes at 0 days post-inoculation (dpi) followed by LPC vaccination 12 days later. All the animals were challenged with wild-type CSFV (ALD stain) at 27 dpi and euthanized at 45 dpi. Following CSFV challenge, the LPC-vaccinated pigs pre-inoculated with PCV2 showed transient fever, viremia, and viral shedding in the saliva and feces. The number of IgM+, CD4+CD8-CD25+, CD4+CD8+CD25+, and CD4-CD8+CD25+ lymphocyte subsets and the level of neutralizing antibodies against CSFV were significantly higher in the animals with LPC vaccination alone than in the pigs with PCV2 inoculation/LPC vaccination. In addition, PCV2-derived inhibition of the CSFV-specific cell proliferative response of peripheral blood mononuclear cells (PBMCs) was demonstrated in an ex vivo experiment. These findings indicate that PCV2 infection decreases the efficacy of the LPC vaccine. This PCV2-derived interference may not only allow the invasion of wild-type CSFV in pig farms but also increases the difficulty of CSF prevention and control in CSF endemic areas.

Published

2011

49. Identification of antigen-specific residues on E2 glycoprotein of classical swine fever virus

Author

Fun-In Wang, Chiung-Hui Tsai, Chia-Yi Chang, Ming-Chung Deng, Wei-Ming Chang, Yu-Ju Lin, and Chin-Cheng Huang

Subjects

Cancer Research, medicine.drug_class, Swine, Biology, Spodoptera, Monoclonal antibody, Epitope, Virus, Cell Line, Classical Swine Fever, Antigen, Viral Envelope Proteins, Virology, medicine, Animals, Amino Acid Sequence, Peptide sequence, Antigens, Viral, Molecular biology, Protein Structure, Tertiary, Infectious Diseases, Epitope mapping, Classical Swine Fever Virus, biology.protein, Antibody, Sequence Alignment, Epitope Mapping, Conformational epitope

Abstract

Envelope glycoprotein E2 of classical swine fever virus (CSFV) is the major antigen that induces neutralizing antibodies in infected pigs. Our previous study revealed that N-terminal 90 residues (domains B/C) of E2 play key roles in differentiating vaccine strain LPC/AHRI (subgroup 1.1) from the two field strains TD/96/TWN (subgroup 2.1) and 94.4/IL/94/TWN (subgroup 3.4) (Chang et al., 2010). This study further analyzed the reaction patterns between monoclonal antibodies (mAbs) and expressed hybrid N-terminal of E2 of the above-mentioned viruses, revealing that mAbs T33 and C2, mAbs V8 and T23, and mAbs L7 and L150 required binding sites specifically at residues 690-714 in domain B, residues 715-740 in domain C, and residues 741-765 in domain C, respectively. Site-directed mutagenesis further demonstrated that residues (713)E and (729)D were critical for antigenic specificity of field strain (94.4/IL/94/TWN), while residues (705)D and (761)K were specific for vaccine strain (LPC/AHRI). These specific residues likely mediated in determining the topography of mAb binding sites of E2 to allow for differentiation between strains based on the premise that the structural integrity of the conformational epitope is maintained.

Published

2010

50. Antigenic domains analysis of classical swine fever virus E2 glycoprotein by mutagenesis and conformation-dependent monoclonal antibodies

Author

Chin-Cheng Huang, Fun-In Wang, Chia-Yi Chang, Ming-Chung Deng, Hui-Chun Chen, Wei-Ming Chang, Yu-Ju Lin, and Chiung-Hui Tsai

Subjects

Cancer Research, Antigenicity, medicine.drug_class, Swine, Molecular Sequence Data, Monoclonal antibody, Antibodies, Viral, Epitope, Virus, Epitopes, Protein structure, Antigen, Viral Envelope Proteins, Virology, medicine, Animals, Amino Acid Sequence, Antigens, Viral, Conserved Sequence, Sequence Deletion, chemistry.chemical_classification, biology, Antibodies, Monoclonal, Molecular biology, Protein Structure, Tertiary, Infectious Diseases, chemistry, Classical Swine Fever Virus, Mutagenesis, biology.protein, Antibody, Glycoprotein, Sequence Alignment

Abstract

Glycoprotein E2 of classical swine fever virus (CSFV) is the major antigenic protein exposed on the outer surface of the virion that induces main neutralizing antibodies during infection in pigs. This study displays the differences in antigenicity of E2 between vaccine and field strains of CSFV by their variable reaction patterns between expressed proteins and monoclonal antibodies (mAbs). The D/A domains of various CSFVs were relatively conserved and recognized by all mAbs against the A domain. However, mAbs against B/C domains were able to differentiate field viruses TD/96/TWN (subgroup 2.1) and 94.4/IL/94/TWN (subgroup 3.4) from the vaccine virus LPC/AHRI (subgroup 1.1). By analysis of expressed truncated proteins, the epitope(s) on B/C domains were mapped to the N-terminal 90 residues of E2 between amino acids 690 and 779. Site-directed mutagenesis further showed that residues (693)C, (737)C, (771)L, (772)L, (773)F and (774)D were critical for the reactivity of E2 protein with mAbs. Thus, the B/C domains are responsible for antigen specificity among various CSFVs, and the disulfide bond and motif (771)LLFD(774) are essential for the structural integrity of its conformational recognition. These data significantly increase our understanding of the antigenic structure of E2 for antibody binding.

Published

2009