The Experts below are selected from a list of 231 Experts worldwide ranked by ideXlab platform
Chengping Lu - One of the best experts on this subject based on the ideXlab platform.
-
A novel vaccine against Porcine circovirus type 2 (PCV2) and Streptococcus equi ssp. zooepidemicus (SEZ) co-infection.
Veterinary microbiology, 2014Co-Authors: Zhe Ma, Xu-qiu Yang, Chengping LuAbstract:To develop a vaccine against Porcine circovirus type 2 (PCV2) and Streptococcus equi ssp. zooepidemicus (SEZ) co-infection, the genes of porcine IL-18, capsid protein (Cap) of PCV2 and M-like protein (SzP) of SEZ were inserted into the Swinepox virus (SPV) genome by homologous recombination. The recombinant Swinepox virus rSPV-ICS was verified by PCR and indirect immunofluorescence assays. To evaluate the immunogenicity of rSPV-ICS, 28 PCV2 and SEZ seronegative Bama minipigs were immunized with rSPV-ICS (n=8), commercial PCV2 vaccine and SEZ vaccine (n=8) or wild type SPV (n=8). The results showed that SzP-specific antibody and PCV2 neutralizing antibody of the rSPV-ICS immunized group increased significantly compared to the wild type SPV treated group after vaccination and increased continuously over time. The levels of IL-4 and IFN-γ in the rSPV-ICS immunized group were significantly higher than the other three groups, respectively. After been co-challenged with PCV2 and SEZ, 87.5% piglets in rSPV-ICS immunized group were survived. Significant reductions in gross lung lesion score, histopathological lung lesion score, and lymph node lesion score were noticed in the rSPV-ICS immunized group compared with the wtSPV treated group. The results suggested that the recombinant rSPV-ICS provided piglets with significant protection against PCV2-SEZ co-infection; thus, it offers proof-of-principle for the development of a vaccine for the prevention of these swine diseases.
-
protection of guinea pigs by vaccination with a recombinant Swinepox virus co expressing ha1 genes of swine h1n1 and h3n2 influenza viruses
Archives of Virology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Deji Yang, Chengping LuAbstract:Swine influenza (SI) is an acute respiratory infectious disease of swine caused by swine influenza virus (SIV). SIV is not only an important respiratory pathogen in pigs but also a potent threat to human health. Here, we report the construction of a recombinant Swinepox virus (rSPV/H3-2A-H1) co-expressing hemagglutinin (HA1) of SIV subtypes H1N1 and H3N2. Immune responses and protection efficacy of the rSPV/H3-2A-H1 were evaluated in guinea pigs. Inoculation of rSPV/H3-2A-H1 yielded neutralizing antibodies against SIV H1N1 and H3N2. The IFN-γ and IL-4 concentrations in the supernatant of lymphocytes stimulated with purified SIV HA1 antigen were significantly higher (P < 0.01) than those of the control groups. Complete protection of guinea pigs against SIV H1N1 or H3N2 challenge was observed. No SIV shedding was detected from guinea pigs vaccinated with rSPV/H3-2A-H1 after challenge. Most importantly, the guinea pigs immunized with rSPV/H3-2A-H1 did not show gross and micrographic lung lesions. However, the control guinea pigs experienced distinct gross and micrographic lung lesions at 7 days post-challenge. Our data suggest that the recombinant Swinepox virus encoding HA1 of SIV H1N1 and H3N2 might serve as a promising candidate vaccine for protection against SIV H1N1 and H3N2 infections.
-
immune responses and protective efficacy of a recombinant Swinepox virus co expressing ha1 genes of h3n2 and h1n1 swine influenza virus in mice and pigs
Veterinary Microbiology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Chengping LuAbstract:The recombinant swine poxvirus rSPV/H3-2A-H1 co-expressing HA1 genes of H3N2 and H1N1 subtype SIV has been constructed and identified. Inoculations of rSPV/H3-2A-H1 yielded ELISA and neutralization antibodies against SIV H1N1 and H3N2, and elicited potent H1N1 and H3N2 SIV-specific INF-γ response from T-lymphocytes in mice and pigs in this study. Complete protection against SIV H1N1 or H3N2 challenge in pigs was observed.
-
immune responses and protective efficacy of a recombinant Swinepox virus co expressing ha1 genes of h3n2 and h1n1 swine influenza virus in mice and pigs
Veterinary Microbiology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Wen Chen, Chengping LuAbstract:The recombinant swine poxvirus rSPV/H3-2A-H1 co-expressing HA1 genes of H3N2 and H1N1 subtype SIV has been constructed and identified. Inoculations of rSPV/H3-2A-H1 yielded ELISA and neutralization antibodies against SIV H1N1 and H3N2, and elicited potent H1N1 and H3N2 SIV-specific INF-γ response from T-lymphocytes in mice and pigs in this study. Complete protection against SIV H1N1 or H3N2 challenge in pigs was observed.
-
construction and immunogenicity of recombinant Swinepox virus expressing capsid protein of pcv2
Vaccine, 2012Co-Authors: Chengping LuAbstract:To explore development of a vaccine against PCV2 infections, the gene of capsid protein (Cap) was inserted into the Swinepox virus (SPV) genome by homologous recombination. The recombinant Swinepox virus expressing capsid protein (rSPV-cap) was verified by PCR, western blot and immunofluorescence assays. To evaluate the immunogenicity of rSPV-cap, twenty-four PCV2 seronegative minipigs were immunized with rSPV-cap, wild type SPV (wtSPV; negative control), or PBS (challenge control). After inoculation with PCV2, pigs in the rSPV-cap immunized group showed significantly higher average daily weight gain (ADG) and shorter fever duration compared with the wtSPV treated group (P < 0.05). Cap-specific antibody in the rSPV-cap immunized group increased dramatically after vaccination and increased continuously over time. PCV2 genomic copies in the serum of rSPV-cap immunized pigs were significantly less compared with the wtSPV treated group at all time points after inoculation (P < 0.01). Significant reduction in gross lung lesion scores, histopathological lung lesion scores, and lymph node lesion scores were noted in the rSPV-cap immunized group compared with the wtSPV treated group (P < 0.01). The results suggested that the recombinant rSPV-cap provided pigs with significant protection from PCV2-associated disease; thus, it offers proof-of-principle for the development of a vaccine for the prevention of PCV2-associated disease in pigs.
Dongyan Huang - One of the best experts on this subject based on the ideXlab platform.
-
protection of guinea pigs by vaccination with a recombinant Swinepox virus co expressing ha1 genes of swine h1n1 and h3n2 influenza viruses
Archives of Virology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Deji Yang, Chengping LuAbstract:Swine influenza (SI) is an acute respiratory infectious disease of swine caused by swine influenza virus (SIV). SIV is not only an important respiratory pathogen in pigs but also a potent threat to human health. Here, we report the construction of a recombinant Swinepox virus (rSPV/H3-2A-H1) co-expressing hemagglutinin (HA1) of SIV subtypes H1N1 and H3N2. Immune responses and protection efficacy of the rSPV/H3-2A-H1 were evaluated in guinea pigs. Inoculation of rSPV/H3-2A-H1 yielded neutralizing antibodies against SIV H1N1 and H3N2. The IFN-γ and IL-4 concentrations in the supernatant of lymphocytes stimulated with purified SIV HA1 antigen were significantly higher (P < 0.01) than those of the control groups. Complete protection of guinea pigs against SIV H1N1 or H3N2 challenge was observed. No SIV shedding was detected from guinea pigs vaccinated with rSPV/H3-2A-H1 after challenge. Most importantly, the guinea pigs immunized with rSPV/H3-2A-H1 did not show gross and micrographic lung lesions. However, the control guinea pigs experienced distinct gross and micrographic lung lesions at 7 days post-challenge. Our data suggest that the recombinant Swinepox virus encoding HA1 of SIV H1N1 and H3N2 might serve as a promising candidate vaccine for protection against SIV H1N1 and H3N2 infections.
-
immune responses and protective efficacy of a recombinant Swinepox virus co expressing ha1 genes of h3n2 and h1n1 swine influenza virus in mice and pigs
Veterinary Microbiology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Chengping LuAbstract:The recombinant swine poxvirus rSPV/H3-2A-H1 co-expressing HA1 genes of H3N2 and H1N1 subtype SIV has been constructed and identified. Inoculations of rSPV/H3-2A-H1 yielded ELISA and neutralization antibodies against SIV H1N1 and H3N2, and elicited potent H1N1 and H3N2 SIV-specific INF-γ response from T-lymphocytes in mice and pigs in this study. Complete protection against SIV H1N1 or H3N2 challenge in pigs was observed.
-
immune responses and protective efficacy of a recombinant Swinepox virus co expressing ha1 genes of h3n2 and h1n1 swine influenza virus in mice and pigs
Veterinary Microbiology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Wen Chen, Chengping LuAbstract:The recombinant swine poxvirus rSPV/H3-2A-H1 co-expressing HA1 genes of H3N2 and H1N1 subtype SIV has been constructed and identified. Inoculations of rSPV/H3-2A-H1 yielded ELISA and neutralization antibodies against SIV H1N1 and H3N2, and elicited potent H1N1 and H3N2 SIV-specific INF-γ response from T-lymphocytes in mice and pigs in this study. Complete protection against SIV H1N1 or H3N2 challenge in pigs was observed.
-
immune responses and protection efficacy of a recombinant Swinepox virus expressing ha1 against swine h3n2 influenza virus in mice and pigs
Virus Research, 2012Co-Authors: Jiarong Xu, Dongyan Huang, Chengping LuAbstract:Swine influenza virus (SIV) is not only an important respiratory pathogen in pigs but also a potent threat to human health. Even though immunization with recombinant vaccinia poxviruses expressing protective antigens as a vaccination strategy has been widely used for many infectious diseases, development of recombinant Swinepox virus (rSPV) vector for this purpose has been less successful. Here, we report the construction of a recombinant Swinepox virus (rSPV) expressing hemagglutinin (HA1) of H3N2 SIV (rSPV-H3). Immune responses and protection efficacy of the vaccination vector were assessed in both mouse and pig models. Prime and boost inoculations of rSPV-H3 yielded neutralization antibody against SIV and elicited potent H3N2 SIV-specific INF-γ response from T-lymphocytes. Complete protection of pigs against H3N2 SIV challenge was achieved. No pigs showed severe systemic and local reactions and no SIV was found shed from the pigs vaccinated with rSPV-H3 after challenge. The data suggest that the SPV-based recombinant vector expressing HA1 of H3N2 SIV might serve as a promising SIV vaccine for protection against SIV infection.
-
immune responses and protective efficacy of a recombinant Swinepox virus expressing ha1 against swine h1n1 influenza virus in mice and pigs
Vaccine, 2012Co-Authors: Jiarong Xu, Dongyan Huang, Chengping LuAbstract:Abstract Swine influenza virus (SIV) is not only an important respiratory pathogen in pigs but also a potent threat to human health. Although immunization with recombinant poxviruses expressing protective antigens as vaccines has been widely used for against many infectious diseases, development of recombinant Swinepox virus (rSPV) vector for the purpose has been less successful. Here, we report the construction of a recombinant Swinepox virus (rSPV-HA1) expressing hemagglutinin (HA1) of H1N1 SIV. Immune responses and protection efficacy of the vaccination vector were evaluated in both the mouse model and the natural host: pig. Prime and boost inoculations of rSPV-HA1 yielded high levels of neutralization antibody against SIV and elicited potent H1N1 SIV-specific IFN-γ response from T-lymphocytes. Complete protection of pigs against H1N1 SIV challenge was observed. No pigs showed evident systemic and local reactions to the vaccine and no SIV shedding was detected from pigs vaccinated with rSPV-HA1 after challenge. Our data demonstrated that the recombinant Swinepox virus encoding HA1 of SIV H1N1 may serve as a promising SIV vaccine for protection against SIV infection.
Jiarong Xu - One of the best experts on this subject based on the ideXlab platform.
-
protection of guinea pigs by vaccination with a recombinant Swinepox virus co expressing ha1 genes of swine h1n1 and h3n2 influenza viruses
Archives of Virology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Deji Yang, Chengping LuAbstract:Swine influenza (SI) is an acute respiratory infectious disease of swine caused by swine influenza virus (SIV). SIV is not only an important respiratory pathogen in pigs but also a potent threat to human health. Here, we report the construction of a recombinant Swinepox virus (rSPV/H3-2A-H1) co-expressing hemagglutinin (HA1) of SIV subtypes H1N1 and H3N2. Immune responses and protection efficacy of the rSPV/H3-2A-H1 were evaluated in guinea pigs. Inoculation of rSPV/H3-2A-H1 yielded neutralizing antibodies against SIV H1N1 and H3N2. The IFN-γ and IL-4 concentrations in the supernatant of lymphocytes stimulated with purified SIV HA1 antigen were significantly higher (P < 0.01) than those of the control groups. Complete protection of guinea pigs against SIV H1N1 or H3N2 challenge was observed. No SIV shedding was detected from guinea pigs vaccinated with rSPV/H3-2A-H1 after challenge. Most importantly, the guinea pigs immunized with rSPV/H3-2A-H1 did not show gross and micrographic lung lesions. However, the control guinea pigs experienced distinct gross and micrographic lung lesions at 7 days post-challenge. Our data suggest that the recombinant Swinepox virus encoding HA1 of SIV H1N1 and H3N2 might serve as a promising candidate vaccine for protection against SIV H1N1 and H3N2 infections.
-
immune responses and protective efficacy of a recombinant Swinepox virus co expressing ha1 genes of h3n2 and h1n1 swine influenza virus in mice and pigs
Veterinary Microbiology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Chengping LuAbstract:The recombinant swine poxvirus rSPV/H3-2A-H1 co-expressing HA1 genes of H3N2 and H1N1 subtype SIV has been constructed and identified. Inoculations of rSPV/H3-2A-H1 yielded ELISA and neutralization antibodies against SIV H1N1 and H3N2, and elicited potent H1N1 and H3N2 SIV-specific INF-γ response from T-lymphocytes in mice and pigs in this study. Complete protection against SIV H1N1 or H3N2 challenge in pigs was observed.
-
immune responses and protective efficacy of a recombinant Swinepox virus co expressing ha1 genes of h3n2 and h1n1 swine influenza virus in mice and pigs
Veterinary Microbiology, 2013Co-Authors: Jiarong Xu, Dongyan Huang, Jiaping Xu, Wen Chen, Chengping LuAbstract:The recombinant swine poxvirus rSPV/H3-2A-H1 co-expressing HA1 genes of H3N2 and H1N1 subtype SIV has been constructed and identified. Inoculations of rSPV/H3-2A-H1 yielded ELISA and neutralization antibodies against SIV H1N1 and H3N2, and elicited potent H1N1 and H3N2 SIV-specific INF-γ response from T-lymphocytes in mice and pigs in this study. Complete protection against SIV H1N1 or H3N2 challenge in pigs was observed.
-
immune responses and protection efficacy of a recombinant Swinepox virus expressing ha1 against swine h3n2 influenza virus in mice and pigs
Virus Research, 2012Co-Authors: Jiarong Xu, Dongyan Huang, Chengping LuAbstract:Swine influenza virus (SIV) is not only an important respiratory pathogen in pigs but also a potent threat to human health. Even though immunization with recombinant vaccinia poxviruses expressing protective antigens as a vaccination strategy has been widely used for many infectious diseases, development of recombinant Swinepox virus (rSPV) vector for this purpose has been less successful. Here, we report the construction of a recombinant Swinepox virus (rSPV) expressing hemagglutinin (HA1) of H3N2 SIV (rSPV-H3). Immune responses and protection efficacy of the vaccination vector were assessed in both mouse and pig models. Prime and boost inoculations of rSPV-H3 yielded neutralization antibody against SIV and elicited potent H3N2 SIV-specific INF-γ response from T-lymphocytes. Complete protection of pigs against H3N2 SIV challenge was achieved. No pigs showed severe systemic and local reactions and no SIV was found shed from the pigs vaccinated with rSPV-H3 after challenge. The data suggest that the SPV-based recombinant vector expressing HA1 of H3N2 SIV might serve as a promising SIV vaccine for protection against SIV infection.
-
immune responses and protective efficacy of a recombinant Swinepox virus expressing ha1 against swine h1n1 influenza virus in mice and pigs
Vaccine, 2012Co-Authors: Jiarong Xu, Dongyan Huang, Chengping LuAbstract:Abstract Swine influenza virus (SIV) is not only an important respiratory pathogen in pigs but also a potent threat to human health. Although immunization with recombinant poxviruses expressing protective antigens as vaccines has been widely used for against many infectious diseases, development of recombinant Swinepox virus (rSPV) vector for the purpose has been less successful. Here, we report the construction of a recombinant Swinepox virus (rSPV-HA1) expressing hemagglutinin (HA1) of H1N1 SIV. Immune responses and protection efficacy of the vaccination vector were evaluated in both the mouse model and the natural host: pig. Prime and boost inoculations of rSPV-HA1 yielded high levels of neutralization antibody against SIV and elicited potent H1N1 SIV-specific IFN-γ response from T-lymphocytes. Complete protection of pigs against H1N1 SIV challenge was observed. No pigs showed evident systemic and local reactions to the vaccine and no SIV shedding was detected from pigs vaccinated with rSPV-HA1 after challenge. Our data demonstrated that the recombinant Swinepox virus encoding HA1 of SIV H1N1 may serve as a promising SIV vaccine for protection against SIV infection.
Xiaomin Yuan - One of the best experts on this subject based on the ideXlab platform.
-
Swinepox virus vector based vaccines attenuation and biosafety assessments following subcutaneous prick inoculation
Veterinary Research, 2018Co-Authors: Xiaomin Yuan, Bin Li, Kongwang HeAbstract:Swinepox virus (SPV) has several advantages as a potential clinical vector for a live vector vaccine. In this study, to obtain a safer and more efficient SPV vector, three SPV mutants, Δ003, Δ010, and ΔTK were successfully constructed. A virus replication experiment showed that these SPV mutants had lower replication abilities compared to wtSPV in 10 different host-derived cell lines. Animal experiments with mouse and rabbit models demonstrate that these three mutants and wtSPV did not cause any clinical signs of dermatitis. No fatalities were observed during a peritoneal challenge assay with these mutants and wtSPV in a mouse model. Additionally, the three mutants and wtSPV were not infectious at 60 h after vaccination in rabbit models. Furthermore, we evaluated biosafety, immunogenicity and effectiveness of the three mutants in 65 1-month-old piglets. The results show that there were no clinical signs of dermatitis in the Δ003 and ΔTK vaccination groups. However, mild signs were observed in the Δ010 vaccination groups when virus titres were high, and apparent clinical signs were observed at the sites of inoculation. Samples from all experimental pig groups were assessed by qPCR, and no SPV genomic DNA was found in five organs, faeces or blood. This suggests that the infectious abilities of wtSPV and the SPV mutants were poor and limited. In summary, this study indicates that two mutants of SPV, Δ003 and ΔTK, may be promising candidates for an attenuated viral vector in veterinary medicine.
-
efficacy and immunogenicity of recombinant Swinepox virus expressing the truncated s protein of a novel isolate of porcine epidemic diarrhea virus
Archives of Virology, 2017Co-Authors: Xiaomin Yuan, Bin Li, Kongwang HeAbstract:Porcine epidemic diarrhea virus (PEDV) causes significant loss to the swine industry. The emergence of novel PEDV strains in recent years has decreased the effectiveness of PEDV vaccines. We have developed a live recombinant vaccine, a Swinepox virus vector that expresses a truncated S protein (rSPV-St) from a recent PEDV strain, SQ2014, and evaluated its immunogenicity and effectiveness in a swine model. Vaccination of swine with rSPV-St elicited a robust antibody response specific for the homologous PEDV SQ2014. Serum IgA titers in rSPV-St-vaccinated animals were significantly higher than in those immunized with inactivated vaccines. The effectiveness of antibodies induced by the rSPV-St vaccine in protection against PEDV was tested in a passive-transfer model in which piglets were challenged with the homologous virus SQ2014 and the heterologous strain CV777. When challenged with the homologous virus, sera from rSPV-St vaccination provided complete protection. However, sera from rSPV-St vaccination did not provide any protection against the heterologous virus challenge. Amino acid sequence differences in the S proteins of the two viruses were identified within neutralizing epitopes, which might have contributed to the divergent clinical results. Our data suggest that rSPV-St is potentially an effective vaccine against infection with emerging PEDV strains.
-
efficacy and immunogenicity of recombinant Swinepox virus expressing the truncated s protein of a novel isolate of porcine epidemic diarrhea virus
Archives of Virology, 2017Co-Authors: Xiaomin Yuan, Bin Li, Kongwang HeAbstract:Porcine epidemic diarrhea virus (PEDV) causes significant loss to the swine industry. The emergence of novel PEDV strains in recent years has decreased the effectiveness of PEDV vaccines. We have developed a live recombinant vaccine, a Swinepox virus vector that expresses a truncated S protein (rSPV-St) from a recent PEDV strain, SQ2014, and evaluated its immunogenicity and effectiveness in a swine model. Vaccination of swine with rSPV-St elicited a robust antibody response specific for the homologous PEDV SQ2014. Serum IgA titers in rSPV-St-vaccinated animals were significantly higher than in those immunized with inactivated vaccines. The effectiveness of antibodies induced by the rSPV-St vaccine in protection against PEDV was tested in a passive-transfer model in which piglets were challenged with the homologous virus SQ2014 and the heterologous strain CV777. When challenged with the homologous virus, sera from rSPV-St vaccination provided complete protection. However, sera from rSPV-St vaccination did not provide any protection against the heterologous virus challenge. Amino acid sequence differences in the S proteins of the two viruses were identified within neutralizing epitopes, which might have contributed to the divergent clinical results. Our data suggest that rSPV-St is potentially an effective vaccine against infection with emerging PEDV strains.
-
efficacy and immunogenicity of recombinant Swinepox virus expressing the a epitope of the tgev s protein
Vaccine, 2015Co-Authors: Xiaomin YuanAbstract:Abstract To explore the possibility of developing a vaccine against transmissible gastroenteritis virus (TGEV) infection, a recombinant Swinepox virus (rSPV-SA) expressing a TGEV protective antigen has been constructed. Immune responses and protection efficacy of the vaccination vector were assessed in both mice and pig models. An indirect ELISA assay suggested that when mice were vaccinated with rSPV-SA, the level of IgG against TGEV was enhanced dramatically. The cytokine assays were employed and the results indicated that both the Th1-type and Th2-type cytokine levels raised after vaccination with rSPV-SA in mice models. Results from the passive immunity protection test of new born piglets demonstrated that the recombinant live-vector vaccine, rSPV-SA, could 100% protect piglets from the SPV infection, and there was no significant clinical symptom in the rSPV-SA treatment group during this experiment. The data suggest that the novel recombinant Swinepox virus is a potential vaccine against TGEV infection.
-
efficacy and immunogenicity of recombinant Swinepox virus expressing the a epitope of the tgev s protein
Vaccine, 2015Co-Authors: Xiaomin YuanAbstract:Abstract To explore the possibility of developing a vaccine against transmissible gastroenteritis virus (TGEV) infection, a recombinant Swinepox virus (rSPV-SA) expressing a TGEV protective antigen has been constructed. Immune responses and protection efficacy of the vaccination vector were assessed in both mice and pig models. An indirect ELISA assay suggested that when mice were vaccinated with rSPV-SA, the level of IgG against TGEV was enhanced dramatically. The cytokine assays were employed and the results indicated that both the Th1-type and Th2-type cytokine levels raised after vaccination with rSPV-SA in mice models. Results from the passive immunity protection test of new born piglets demonstrated that the recombinant live-vector vaccine, rSPV-SA, could 100% protect piglets from the SPV infection, and there was no significant clinical symptom in the rSPV-SA treatment group during this experiment. The data suggest that the novel recombinant Swinepox virus is a potential vaccine against TGEV infection.
Kongwang He - One of the best experts on this subject based on the ideXlab platform.
-
Swinepox virus vector based vaccines attenuation and biosafety assessments following subcutaneous prick inoculation
Veterinary Research, 2018Co-Authors: Xiaomin Yuan, Bin Li, Kongwang HeAbstract:Swinepox virus (SPV) has several advantages as a potential clinical vector for a live vector vaccine. In this study, to obtain a safer and more efficient SPV vector, three SPV mutants, Δ003, Δ010, and ΔTK were successfully constructed. A virus replication experiment showed that these SPV mutants had lower replication abilities compared to wtSPV in 10 different host-derived cell lines. Animal experiments with mouse and rabbit models demonstrate that these three mutants and wtSPV did not cause any clinical signs of dermatitis. No fatalities were observed during a peritoneal challenge assay with these mutants and wtSPV in a mouse model. Additionally, the three mutants and wtSPV were not infectious at 60 h after vaccination in rabbit models. Furthermore, we evaluated biosafety, immunogenicity and effectiveness of the three mutants in 65 1-month-old piglets. The results show that there were no clinical signs of dermatitis in the Δ003 and ΔTK vaccination groups. However, mild signs were observed in the Δ010 vaccination groups when virus titres were high, and apparent clinical signs were observed at the sites of inoculation. Samples from all experimental pig groups were assessed by qPCR, and no SPV genomic DNA was found in five organs, faeces or blood. This suggests that the infectious abilities of wtSPV and the SPV mutants were poor and limited. In summary, this study indicates that two mutants of SPV, Δ003 and ΔTK, may be promising candidates for an attenuated viral vector in veterinary medicine.
-
efficacy and immunogenicity of recombinant Swinepox virus expressing the truncated s protein of a novel isolate of porcine epidemic diarrhea virus
Archives of Virology, 2017Co-Authors: Xiaomin Yuan, Bin Li, Kongwang HeAbstract:Porcine epidemic diarrhea virus (PEDV) causes significant loss to the swine industry. The emergence of novel PEDV strains in recent years has decreased the effectiveness of PEDV vaccines. We have developed a live recombinant vaccine, a Swinepox virus vector that expresses a truncated S protein (rSPV-St) from a recent PEDV strain, SQ2014, and evaluated its immunogenicity and effectiveness in a swine model. Vaccination of swine with rSPV-St elicited a robust antibody response specific for the homologous PEDV SQ2014. Serum IgA titers in rSPV-St-vaccinated animals were significantly higher than in those immunized with inactivated vaccines. The effectiveness of antibodies induced by the rSPV-St vaccine in protection against PEDV was tested in a passive-transfer model in which piglets were challenged with the homologous virus SQ2014 and the heterologous strain CV777. When challenged with the homologous virus, sera from rSPV-St vaccination provided complete protection. However, sera from rSPV-St vaccination did not provide any protection against the heterologous virus challenge. Amino acid sequence differences in the S proteins of the two viruses were identified within neutralizing epitopes, which might have contributed to the divergent clinical results. Our data suggest that rSPV-St is potentially an effective vaccine against infection with emerging PEDV strains.
-
efficacy and immunogenicity of recombinant Swinepox virus expressing the truncated s protein of a novel isolate of porcine epidemic diarrhea virus
Archives of Virology, 2017Co-Authors: Xiaomin Yuan, Bin Li, Kongwang HeAbstract:Porcine epidemic diarrhea virus (PEDV) causes significant loss to the swine industry. The emergence of novel PEDV strains in recent years has decreased the effectiveness of PEDV vaccines. We have developed a live recombinant vaccine, a Swinepox virus vector that expresses a truncated S protein (rSPV-St) from a recent PEDV strain, SQ2014, and evaluated its immunogenicity and effectiveness in a swine model. Vaccination of swine with rSPV-St elicited a robust antibody response specific for the homologous PEDV SQ2014. Serum IgA titers in rSPV-St-vaccinated animals were significantly higher than in those immunized with inactivated vaccines. The effectiveness of antibodies induced by the rSPV-St vaccine in protection against PEDV was tested in a passive-transfer model in which piglets were challenged with the homologous virus SQ2014 and the heterologous strain CV777. When challenged with the homologous virus, sera from rSPV-St vaccination provided complete protection. However, sera from rSPV-St vaccination did not provide any protection against the heterologous virus challenge. Amino acid sequence differences in the S proteins of the two viruses were identified within neutralizing epitopes, which might have contributed to the divergent clinical results. Our data suggest that rSPV-St is potentially an effective vaccine against infection with emerging PEDV strains.
