Effects of attenuated highly pathogenic pig reproductive and respiratory syndrome(HP-PRRS)TJM-F92 strain vaccine on immune antibody level against classical swine fever(CSF)and foot-and-mouth disease(FMD)were stu...Effects of attenuated highly pathogenic pig reproductive and respiratory syndrome(HP-PRRS)TJM-F92 strain vaccine on immune antibody level against classical swine fever(CSF)and foot-and-mouth disease(FMD)were studied from October 8 to November 12 in 2014,in order to optimize vaccination program of CSF,HP-PRRS and FMD and to provide scientific guidance for animal disease control and prevention work.The results showed that attenuated HP-PRRS(TJMF92 strain)vaccine had no significant effect on immune antibody level of hog cholera lapinized virus(HCLV,ST passage cell vaccine)attenuated vaccine and FMD-O inactivated vaccines(OZK/93 strain),and single or combined use of three vaccines received good immunization effects.展开更多
Classical swine fever (CSF), a list A disease of Office International des Epizooties, is caused by classical swine fever virus (CSFV) belonging to the Flaviviridae family. The well-known lapinized Chinese strain o...Classical swine fever (CSF), a list A disease of Office International des Epizooties, is caused by classical swine fever virus (CSFV) belonging to the Flaviviridae family. The well-known lapinized Chinese strain of CSFV, also known as C-strain, was developed in China in the mid-1950s. In the past half a century, the vaccine has been proved to be safe and immunogenic in pigs of essentially any age. It is of high efficacy, providing immunized animals with broad-spectrum, sometimes lifelong, protection, which is contributed by both cell-mediated immunity and humoral immunity, against essentially all genotypes or subgenotypes of the virus. The maternal antibodies derived from immunized sows can confer solid protection of their offspring from disease; however, they have been proved to inhibit the successful active immunization of C-strain vaccine. The complete genomes of C-strain and dozens of established or field strains have been sequenced and annotated. Recently, the reverse genetics system of C-strain has been developed, resulting in several C- strain-derived candidate marker vaccines. Many countries manage to control or even eradicate CSF with the aid of mass vaccination with C-strain. in spite of these efforts, the eradication of the disease worldwide remains a big challenge and needs to go a long way, and provably still resorts to genetically modified C-strain vaccine. The authors present an overview of the characteristics of the vaccine, which has stood the test of half a century.展开更多
[ Objective] To investigate the blocking effects of spleen vaccine on vertical transmission of classical swine fever virus (CSFV) in sows. [ Method] Sows infected by CSFV were selected from three large-scale pig far...[ Objective] To investigate the blocking effects of spleen vaccine on vertical transmission of classical swine fever virus (CSFV) in sows. [ Method] Sows infected by CSFV were selected from three large-scale pig farms and they were randomly divided into group Ⅰ, group Ⅱ and control group. The sows in the group Ⅰ were vaccinated with CSF spleen vaccine at a 1.5 times normal dose per pig; those in the group Ⅱ were vaccinated with CSF spleen vaccine at a 2.0 times normal dose per pig; and those in the control group were vaccinated with cell vaccine at a 4.0 times normal- dose per pig. The CSF antigens of piglets were detected by enzyme-linked immunosorbent assay (ELISA). [ Result] The antigen positive rate of piglets in the experimental group (18.5%) was significantly lower than that in the control group (48.1% ). No significant difference was found be- tween the group Ⅰ and the group Ⅱ. [ Condmion] CSF spleen vaccine has good blocking effects on vertical transmission of CSFV in sows.展开更多
In order to understand the incidence reasons in a scaled pig farm of Guizhou Province, the infected pigs were diagnosed with epidemiological investigation, clinical observation, pathological diagnosis, enzyme-linked i...In order to understand the incidence reasons in a scaled pig farm of Guizhou Province, the infected pigs were diagnosed with epidemiological investigation, clinical observation, pathological diagnosis, enzyme-linked immunosorbent assay (ELISA), PCR/RT-PCR and bacterial isolation and identification. The results showed that the pigs were infected mixedly with classical swine fever virus (CSFV), pseudorabies virus (PRV) and E. coli. Therefore, some measures should be adopted to control the incidence of CSF, PR and colibacillosis in the pig farm.展开更多
When pigs are infected with classical swine fever virus ( CSFV), the antibody primarily targets the structural giycoprotein E^rns of the virus. Previous investigations have demonstrated that ETM has low or no virus...When pigs are infected with classical swine fever virus ( CSFV), the antibody primarily targets the structural giycoprotein E^rns of the virus. Previous investigations have demonstrated that ETM has low or no virus neutralizing capacity. In this study, candidate subunit marker vaccine, chaperonin 10 (Cpnl0)-E^rns, which possess the property of generating neutralized antibodies against lethal challenge of virulent CSFV was developed. The gene of ETM was isolated from Hog cholera lapinized virus (HCLV) -infected spleen cells of rabbits via RT-PCR method and fused to the downstream region of the cpn10 gene; the products of recombinant fusion protein ( cpn10-E^rns ) induced expression in Escherichia coli, and the products were purified by affinity chromatography. During the course of vaccination, the candidate vaccines cpn10-E^rns were used for the immunization of guinea pigs, and they induced a strong antibody response against cpn10-E^rns. The antibodies can be immobilized by coating inactivated CSFV particles, indicating that these antibodies can recognize CSFV. Neutralization assay was carried out on rabbits according to National Regulations on Veterinary Drug. The results clearly indicate that the typical fever of rabbits induced by the live attenuated HCLV could be inhibited by preincubation with the antisera (dilution 1: 4) induced by cpn10-E^rns, but not inhibited by preincubation with the antisera induced only by E^rns. Analogous results were observed for the group of the rabbits immunized with cpn10-E^rns, which were protected against the typical fever induced by the challenge with HCLV. The findings of this study formed the basis of a new means for developing subunit marker vaccine against CSFV.展开更多
A multi-epitope-vaccine MEVABc consisting of two linear neutralizing determinants (BCI: aa693-716; A6: aa844-865) located on antigenic unit B/C and unit A of glycoprotein E2 was prepared to evaluate whether a comb...A multi-epitope-vaccine MEVABc consisting of two linear neutralizing determinants (BCI: aa693-716; A6: aa844-865) located on antigenic unit B/C and unit A of glycoprotein E2 was prepared to evaluate whether a combination strategy is effective in the design of peptide vaccines. After immunization, pig sera collected every one to two weeks were evaluated by enzyme linked immunosorbent assay. C-straininduced anti-sera and hyper-immune sera cannot recognize overlapping peptides that cover the E2 N-terminus, while MEVAgC is able to elicit high levels of peptide-specific antibody response. When compared with previously studied peptide vaccines PV-BC1 and PV-A6, the same dose of either component in the MEMABc increases the BC1- or A6-specific antibodies (to 1/3-1/2 of the levels of the separate vaccines). However, the synergy between the antibodies may make MEVAgc much more potent. Moreover, anti-C-strain immunity pre-existing in pigs does not disturb the sequent MEVABc vaccination. Thus, MEVABc can be administrated to pigs which already possess anti-classical swine fever virus immunity. MEVAgC is a promising candidate marker vaccine.展开更多
Previous investigations demonstrated that the envelope glycoprotein E2 (gp55) of classical swine fever virus (CSFV) is the most immunogenic protein. Interestingly, recombinant protein E2 that contains only one stru...Previous investigations demonstrated that the envelope glycoprotein E2 (gp55) of classical swine fever virus (CSFV) is the most immunogenic protein. Interestingly, recombinant protein E2 that contains only one structural antigenic unit (unit B/C or A) could protect pigs from a lethal challenge of CSFV. Based on these findings, we designed and prepared five overlapping synthetic peptides that covered the sequence unit B/C (aa 693777) of Shimen E2 and conjugated individual peptides with bovine serum albumin (BSA). After the vaccination, the specificity of the rabbit sera was analyzed in the enzyme linked immunosorbent assay (ELISA) and the fast protein liquid chromatography (FPLC). The results show that each of the five candidate peptide vaccines can successfully induce a high titer of specific antibodies in New Zealand White Rabbits (n=3). Subsequently, the five candidate peptide vaccines were applied in combination for immunization of pigs (n=10) and induced specific and strong humoral responses against all of the five designed peptides in pigs. Our studies indicate that the candidate multi peptide vaccine would prove an excellent marker vaccine against CSFV and provide a model for developing effective synthetic peptide vaccines to stop viral epidemics in humans and animals.展开更多
文摘Effects of attenuated highly pathogenic pig reproductive and respiratory syndrome(HP-PRRS)TJM-F92 strain vaccine on immune antibody level against classical swine fever(CSF)and foot-and-mouth disease(FMD)were studied from October 8 to November 12 in 2014,in order to optimize vaccination program of CSF,HP-PRRS and FMD and to provide scientific guidance for animal disease control and prevention work.The results showed that attenuated HP-PRRS(TJMF92 strain)vaccine had no significant effect on immune antibody level of hog cholera lapinized virus(HCLV,ST passage cell vaccine)attenuated vaccine and FMD-O inactivated vaccines(OZK/93 strain),and single or combined use of three vaccines received good immunization effects.
文摘Classical swine fever (CSF), a list A disease of Office International des Epizooties, is caused by classical swine fever virus (CSFV) belonging to the Flaviviridae family. The well-known lapinized Chinese strain of CSFV, also known as C-strain, was developed in China in the mid-1950s. In the past half a century, the vaccine has been proved to be safe and immunogenic in pigs of essentially any age. It is of high efficacy, providing immunized animals with broad-spectrum, sometimes lifelong, protection, which is contributed by both cell-mediated immunity and humoral immunity, against essentially all genotypes or subgenotypes of the virus. The maternal antibodies derived from immunized sows can confer solid protection of their offspring from disease; however, they have been proved to inhibit the successful active immunization of C-strain vaccine. The complete genomes of C-strain and dozens of established or field strains have been sequenced and annotated. Recently, the reverse genetics system of C-strain has been developed, resulting in several C- strain-derived candidate marker vaccines. Many countries manage to control or even eradicate CSF with the aid of mass vaccination with C-strain. in spite of these efforts, the eradication of the disease worldwide remains a big challenge and needs to go a long way, and provably still resorts to genetically modified C-strain vaccine. The authors present an overview of the characteristics of the vaccine, which has stood the test of half a century.
基金supported by the Scientific Research Project Foundation of Jiangxi Provincial Education Department(GJJ08372)
文摘[ Objective] To investigate the blocking effects of spleen vaccine on vertical transmission of classical swine fever virus (CSFV) in sows. [ Method] Sows infected by CSFV were selected from three large-scale pig farms and they were randomly divided into group Ⅰ, group Ⅱ and control group. The sows in the group Ⅰ were vaccinated with CSF spleen vaccine at a 1.5 times normal dose per pig; those in the group Ⅱ were vaccinated with CSF spleen vaccine at a 2.0 times normal dose per pig; and those in the control group were vaccinated with cell vaccine at a 4.0 times normal- dose per pig. The CSF antigens of piglets were detected by enzyme-linked immunosorbent assay (ELISA). [ Result] The antigen positive rate of piglets in the experimental group (18.5%) was significantly lower than that in the control group (48.1% ). No significant difference was found be- tween the group Ⅰ and the group Ⅱ. [ Condmion] CSF spleen vaccine has good blocking effects on vertical transmission of CSFV in sows.
文摘In order to understand the incidence reasons in a scaled pig farm of Guizhou Province, the infected pigs were diagnosed with epidemiological investigation, clinical observation, pathological diagnosis, enzyme-linked immunosorbent assay (ELISA), PCR/RT-PCR and bacterial isolation and identification. The results showed that the pigs were infected mixedly with classical swine fever virus (CSFV), pseudorabies virus (PRV) and E. coli. Therefore, some measures should be adopted to control the incidence of CSF, PR and colibacillosis in the pig farm.
基金Supported by the National Key Basic Research Program of China(No. 2001CB510007).
文摘When pigs are infected with classical swine fever virus ( CSFV), the antibody primarily targets the structural giycoprotein E^rns of the virus. Previous investigations have demonstrated that ETM has low or no virus neutralizing capacity. In this study, candidate subunit marker vaccine, chaperonin 10 (Cpnl0)-E^rns, which possess the property of generating neutralized antibodies against lethal challenge of virulent CSFV was developed. The gene of ETM was isolated from Hog cholera lapinized virus (HCLV) -infected spleen cells of rabbits via RT-PCR method and fused to the downstream region of the cpn10 gene; the products of recombinant fusion protein ( cpn10-E^rns ) induced expression in Escherichia coli, and the products were purified by affinity chromatography. During the course of vaccination, the candidate vaccines cpn10-E^rns were used for the immunization of guinea pigs, and they induced a strong antibody response against cpn10-E^rns. The antibodies can be immobilized by coating inactivated CSFV particles, indicating that these antibodies can recognize CSFV. Neutralization assay was carried out on rabbits according to National Regulations on Veterinary Drug. The results clearly indicate that the typical fever of rabbits induced by the live attenuated HCLV could be inhibited by preincubation with the antisera (dilution 1: 4) induced by cpn10-E^rns, but not inhibited by preincubation with the antisera induced only by E^rns. Analogous results were observed for the group of the rabbits immunized with cpn10-E^rns, which were protected against the typical fever induced by the challenge with HCLV. The findings of this study formed the basis of a new means for developing subunit marker vaccine against CSFV.
基金the National Natural Science Foundation of China (No. 30221003)
文摘A multi-epitope-vaccine MEVABc consisting of two linear neutralizing determinants (BCI: aa693-716; A6: aa844-865) located on antigenic unit B/C and unit A of glycoprotein E2 was prepared to evaluate whether a combination strategy is effective in the design of peptide vaccines. After immunization, pig sera collected every one to two weeks were evaluated by enzyme linked immunosorbent assay. C-straininduced anti-sera and hyper-immune sera cannot recognize overlapping peptides that cover the E2 N-terminus, while MEVAgC is able to elicit high levels of peptide-specific antibody response. When compared with previously studied peptide vaccines PV-BC1 and PV-A6, the same dose of either component in the MEMABc increases the BC1- or A6-specific antibodies (to 1/3-1/2 of the levels of the separate vaccines). However, the synergy between the antibodies may make MEVAgc much more potent. Moreover, anti-C-strain immunity pre-existing in pigs does not disturb the sequent MEVABc vaccination. Thus, MEVABc can be administrated to pigs which already possess anti-classical swine fever virus immunity. MEVAgC is a promising candidate marker vaccine.
基金Supported by the National Key Basic Research Specific Funds(No.G19990 75 60 7) the National Science Foundation for Outstanding Young Scientists of China (No.3 0 0 2 5 0 3 8)
文摘Previous investigations demonstrated that the envelope glycoprotein E2 (gp55) of classical swine fever virus (CSFV) is the most immunogenic protein. Interestingly, recombinant protein E2 that contains only one structural antigenic unit (unit B/C or A) could protect pigs from a lethal challenge of CSFV. Based on these findings, we designed and prepared five overlapping synthetic peptides that covered the sequence unit B/C (aa 693777) of Shimen E2 and conjugated individual peptides with bovine serum albumin (BSA). After the vaccination, the specificity of the rabbit sera was analyzed in the enzyme linked immunosorbent assay (ELISA) and the fast protein liquid chromatography (FPLC). The results show that each of the five candidate peptide vaccines can successfully induce a high titer of specific antibodies in New Zealand White Rabbits (n=3). Subsequently, the five candidate peptide vaccines were applied in combination for immunization of pigs (n=10) and induced specific and strong humoral responses against all of the five designed peptides in pigs. Our studies indicate that the candidate multi peptide vaccine would prove an excellent marker vaccine against CSFV and provide a model for developing effective synthetic peptide vaccines to stop viral epidemics in humans and animals.
