Asia I型口蹄疫疫苗效力检验替代方法的初步研究

使用三株针对AsiaⅠ型口蹄疫146S抗原的杂交瘤细胞株(1#G3C2、2#G6B9、10#C2G1)大量生产腹水单克隆抗体,粗提纯化并按一定的比例进行混合。初步建立混合腹水单克隆抗体介导的间接夹心ELISA方法,使用该方法测定AsiaⅠ型病毒灭活抗原、O型病毒灭活抗原、正常BHK21细胞培养液,结果表明该方法特异性好,所测定OD值和AsiaⅠ型抗原稀释倍数呈明显线性关系。用该方法对11批AsiaⅠ型、O型单价或双价成品疫苗破乳抗原进行测定,结果表明不同批次不同企业生产的疫苗完整病毒颗粒抗原含量有差异,进一步完善有望用于AsiaⅠ型口蹄疫成品疫苗中有效颗粒抗原含量的测定,从而发展成一种疫苗效力检验替代方法。     

Evaluation of a novel proximity ligation assay for the sensitive and rapid detection of foot-and-mouth disease virus

A novel proximity ligation assay (PLA) using a pan-serotype reactive monoclonal antibody was developed and evaluated for the detection of foot-and-mouth disease virus (FMDV) in clinical samples collected from field cases of disease. The FMDV-specific PLA was found to be 100 times more sensitive for virus detection than the commonly used antigen capture-ELISA (AgELISA). As few as five TCID50 were detected in individual assays, which was comparable with the analytical sensitivity of real-time RT-PCR. Although this assay was capable of detecting diverse isolates from all seven FMDV serotypes, the diagnostic sensitivity of the PLA assay was lower than real-time RT-PCR mainly due to a failure to detect some SAT 1, SAT 2 and SAT 3 FMDV strains. In conclusion, this new PLA format has high analytical sensitivity for the detection of FMDV in clinical samples and may prove valuable as a rapid and simple tool for use in FMD diagnosis.     

Development and standardization of a piezo electric immunobiosensor for foot and mouth disease virus typing

An immunobiosensor using a piezo electric (PZ) crystal was developed and standardized for foot and mouth disease (FMD) diagnosis and virus typing. A 6MHz quartz crystal was used as the frequency determining element. Foot and mouth disease virus (FMDV) type specific antibody raised in rabbits/monoclonal antibody was coated on the crystal surface and the resonance measured. One microlitre of the 10% aqueous suspension of the clinical sample (tongue or foot epithelium) was applied on both surfaces of the crystal and the resonance recorded. A difference in resonance of more than -2.5Hz was obtained in positive samples (homologous antigen and antibody). The test was standardized initially using various dilutions of FMD tissue culture antigen. Repeatability and sensitivity were also tested and it was found that the crystals could be washed and reused eight times. The test could be used for FMDV type specifically and no cross-reaction between FMDV types was observed. The shelf-life of the antibody-coated crystal stored at room temperature was 18 weeks. Application of the biosensor test to the FMDV clinical samples confirmed virus typing results when compared with enzyme-linked immunoabsorbent assay (ELISA) and it could also detect virus in ELISA negative samples and mixed virus infections.     

Microarray-based detection and typing of foot-and-mouth disease virus

Foot-and-mouth disease virus (FMDV) is the most economically important veterinary pathogen because of its highly infectious nature and the devastating effects the virus has on the livestock industry. Rapid diagnostic methods are needed for detection and typing of FMDV serotypes and differentiation from other viruses causing vesicular diseases. We developed a microarray-based test that uses a FMD DNA chip containing 155 oligonucleotide probes, 35-45 base pair (bp) long, virus-common and serotype-specific, designed from the VP3-VP1-2A region of the genome. A set of two forward primers and one reverse primer were also designed to allow amplification of approximately 1100 bp of target sequences from this region. The amplified target was labelled with Alexa-Fluor 546 dye and applied to the FMD DNA chip. A total of 23 different FMDV strains representing all seven serotypes were detected and typed by the FMD DNA chip. Microarray technology offers a unique capability to identify multiple pathogens in a single chip.     

Implementation in Australia of molecular diagnostic techniques for the rapid detection of foot and mouth disease virus

OBJECTIVE: To evaluate and implement rapid molecular diagnostic techniques for the detection of foot and mouth disease virus (FMDV) suitable for use in Australia. DESIGN: Two PCR TaqMan assays targeted to the FMDV internal ribosome entry site or the 3D polymerase coding region for the rapid detection of FMDV were evaluated using non-infectious materials to determine the test most appropriate for implementation as part of Australia's national preparedness for the rapid detection and diagnosis of FMD outbreaks. RESULTS: Two published tests (PCR TaqMan assays targeted to the FMDV IRES region or the FMDV 3D polymerase coding region) were evaluated for their ability to detect FMDV genetic material in non-infectious FMDV ELISA antigen stocks held at Australian Animal Health Laboratory. Both tests were able to detect FMDV genetic material from strains O1 Manisa, O-3039, A22, A24, A Malaysia, C, Asia 1 and SAT 1, 2 and 3. With the exception of Asia 1, the TaqMan assay targeted to the FMD 3D polymerase coding region had Ct values equal to or lower than for the TaqMan assay targeted to the IRES region suggesting that this test may provide broader serotype detection and sensitivity. However, the TaqMan assay directed to the FMDV IRES is the only one to date to have undergone substantial evaluation using clinical samples collected during an outbreak. The greatest differences observed were for O-3039, SAT 1, and 3. CONCLUSION: Given the ease of setting up both tests, AAHL currently runs both tests on highly suspect FMD investigations to provide independent confirmation of the absence of FMDV because the tests are focused on two independent regions of the FMDV genome. These tests add substantially to Australia's preparedness for FMD diagnosis complementing the already well-established virus isolation and antigen capture ELISA tests for index case diagnosis of FMD in Australia.     

ELISpot技术检测猪抗口蹄疫γ干扰素方法的建立

猪口蹄疫免疫防御是控制猪口蹄疫疫情的重要手段,免疫水平指标通常用免疫抗体水平判定。对于其细胞免疫水平检测尚缺乏成熟可靠的技术,本试验利用市售ELISpot试剂盒建立猪口蹄疫特异γ干扰素检测方法,刺激物分别采用疫苗全病毒颗粒（O/Mya98/XJ/2010）、口蹄疫病毒T细胞表位多肽池,以植物血凝素（PHA）为阳性对照,对细胞浓度、刺激物浓度、孵育时间等进行优化。优化条件为：外周血PBMC新鲜提取或冻存细胞成活率90%以上,最佳细胞数为2×10⁵个/孔,最佳反应时间是16 h,病毒粒子146 S含量为100 ng/mL,多肽最佳浓度10 μg/mL,PHA的最佳浓度是20 μg/mL。ELISpot技术检测口蹄疫病毒感染猪γ干扰素方法的建立,为口蹄疫免疫力评价及口蹄疫疫苗免疫效果评估及进一步研究其与疫苗保护力（PD₅₀）的相关性奠定基础。     

Serological evidence of FMD subclinical infection in sheep population during the 1999 epidemic in Morocco.

During 1999, 11 outbreaks of foot and mouth disease (FMD) were declared in the east and central part of Morocco. All the FMD clinical cases reported were cattle. In order to analyse the serological status of sheep from the FMD outbreak areas, 598 sheep sera were tested using a liquid-phase blocking ELISA (LPBE) to detect antibodies against FMDV structural proteins. The study confirmed the presence of FMDV specific antibodies in 77 clinically normal sheep, indicating that unrecognised FMDV-infected sheep could represent a potential risk of FMD dissemination in Morocco.Subsequently, sera from flocks of sheep that had been exposed to FMD outbreaks were assayed by an indirect ELISA using the recombinant FMDV non-structural protein 3ABC expressed in E. coli to evaluate the potential use of this serological test in future epidemiological studies and the development of FMD control strategies. The results indicated that the 3ABC-ELISA was able to detect antibodies indicative of infection with FMDV in asymptomatic sheep in field conditions.     

Foot-and-mouth disease virus-like particles produced by a SUMO fusion protein system in Escherichia coli induce potent protective immune responses in guinea pigs,swine and cattle

Foot-and-mouth disease virus (FMDV) causes a highly contagious infection in cloven-hoofed animals. The format of FMD virus-like particles (VLP) as a non-replicating particulate vaccine candidate is a promising alternative to conventional inactivated FMDV vaccines. In this study, we explored a prokaryotic system to express and assemble the FMD VLP and validated the potential of VLP as an FMDV vaccine candidate. VLP composed entirely of FMDV (Asia1/Jiangsu/China/2005) capsid proteins (VP0, VP1 and VP3) were simultaneously produced as SUMO fusion proteins by an improved SUMO fusion protein system in E. coli. Proteolytic removal of the SUMO moiety from the fusion proteins resulted in the assembly of VLP with size and shape resembling the authentic FMDV. Immunization of guinea pigs, swine and cattle with FMD VLP by intramuscular inoculation stimulated the FMDV-specific antibody response, neutralizing antibody response, T-cell proliferation response and secretion of cytokine IFN-γ. In addition, immunization with one dose of the VLP resulted in complete protection of these animals from homologous FMDV challenge. The 50% protection dose (PD₅₀) of FMD VLP in cattle is up to 6.34. These results suggest that FMD VLP expressed in E. coli are an effective vaccine in guinea pigs, swine and cattle and support further development of these VLP as a vaccine candidate for protection against FMDV.     

Differentiation of foot-and-mouth disease-infected pigs from vaccinated pigs using antibody-detecting sandwich ELISA

The presence of serum antibodies for nonstructural proteins of the foot-and-mouth disease virus (FMDV) can differentiate FMDV-infected animals from vaccinated animals. In this study, a sandwich ELISA was developed for rapid detection of the foot-and-mouth disease (FMD) antibodies; it was based on an Escherichia coli-expressed, highly conserved region of the 3ABC nonstructural protein of the FMDV O/TW/99 strain and a monoclonal antibody derived from the expressed protein. The diagnostic sensitivity of the assay was 98.4%, and the diagnostic specificity was 100% for na?ve and vaccinated pigs; the detection ability of the assay was comparable those of the PrioCHECK and UBI kits. There was 97.5, 93.4 and 66.6% agreement between the results obtained from our ELISA and those obtained from the PrioCHECK, UBI and CHEKIT kits, respectively. The kappa statistics were 0.95, 0.87 and 0.37, respectively. Moreover, antibodies for nonstructural proteins of the serotypes A, C, Asia 1, SAT 1, SAT 2 and SAT 3 were also detected in bovine sera. Furthermore, the absence of cross-reactions generated by different antibody titers against the swine vesicular disease virus and vesicular stomatitis virus (VSV) was also highlighted in this assay's specificity.     

Induction of protective immune response against both PPRV and FMDV by a novel recombinant PPRV expressing FMDV VP1

Peste des petits ruminants (PPR) and foot-and-mouth disease (FMD) are both highly contagious diseases of small domestic and wild ruminants caused by the PPR virus (PPRV) and the FMD virus (FMDV). In this study, a recombinant PPRV expressing the FMDV VP1 gene (rPPRV/VP1) was generated and FMDV VP1 expression did not impair replication of the recombinant virus in vitro and immunogenicity in inducing neutralizing antibody against PPR in goats. Vaccination with one dose of rPPRV/VP1 induced FMDV neutralizing antibody in goats and protected them from challenge with virulent FMDV. Our results suggest that the recombinant PPRV expressing the FMDV VP1 protein is a potential dual live vectored vaccine against PPRV and FMDV.     

Prevalence of seroreagents to FMDV in the cattle population in Poland: results of 9-year monitoring studies

The aim of this study was to evaluate the occurrence of antibodies to foot-and-mouth disease virus (FMDV) in sera of cattle in Poland. The examinations were performed using the virus neutralization (VN) test and ELISA methods: liquid-phase blocking ELISA (LPBE) and 3ABC-ELISA. During 1993-2001, about 681,000 samples of sera collected from animals held on the territory of Poland were tested. Of about 600,000 sera taken from animals exported to the European Union, 963 samples (0.16%) were found to be positive to FMDV types A, O and/or C. During 1996-2001 out of 85,000 sera tested as part of the national serological surveillance program for FMD, the FMDV antibodies were recorded in 51 (0.06%) samples. Persistence of FMD antibodies was observed in sera of cattle from the region around Zduńska Wola, which had been vaccinated annually during 1985-1985 with trivalent FMD vaccine. The results of the serological studies of 550 animals from this region indicates the presence of FMDV antibodies in sera of 240 (44%) cattle. A half-life of maternal antibodies in sera of calves born to seropositive dams was estimated; the highest level of FMDV antibodies was detected in sera taken from new-born calves aged 5-10 days. The level of FMDV antibodies in beestings of dams was highest during the first 10 hours after parturition; after 24 hours a significant decrease (3-5 times) was found and in two weeks post parturition FMDV antibodies were undetectable in the milk. It was established that all LPBE/VN positive sera of cattle exported from Poland, from the vaccination zone around Zduńska Wola as well as those tested as part of the national serological surveillance program for FMD, were taken exclusively from vaccinated animals or calves born to vaccinated dams.     

Increased humoral antibody response of foot-and-mouth disease virus vaccine in growing pigs pre-treated with poly-γ-glutamic acid

This study was conducted to determine if humoral antibody response of foot-and-mouth disease (FMD) vaccine improved in 8-week-old growing pigs born to well-vaccinated sows pre-treated with 60 mg of poly-γ-glutamic acid (γ-PGA) three days before vaccination. Antibody against FMD virus serotype O was measured 0, 2, 4 and 6 weeks post-vaccination, using a PrioCHECK FMDV type O ELISA kit. The results showed that positive antibody reactions against FMDV serotype O antigen among a component of the vaccine significantly increased in response to pre-injection with γ-PGA.     

以合成肽为抗原检测O型口蹄疫病毒抗体 ELISA方法的建立和评价

作者以固相法合成特异性FMDV主要保护性抗原VP1上的表位肽,将其与载体蛋白BSA偶联,作为包被抗原,制备检测抗O型口蹄疫病毒(FMDV)抗体的ELISA试剂盒,并对该试剂盒进行方法考核.结果表明该方法的敏感性为95.12%,特异性为100%.检测199份血清标本,与UBI FMD VP1试剂盒的符合率达到98.49%,与液相阻断ELISA试剂盒的符合率达到96.98%.该多肽ELISA试剂盒特异、敏感、稳定、操作简便,可用来监控口蹄疫抗体水平.     

口蹄疫、猪瘟、高致病性猪繁殖与呼吸综合征3种疫苗同步两点免疫的田间应用试验

为探索农村散养猪口蹄疫（foot-and-mouth disease,FMD）、猪瘟（classical swine fever,CSF）、高致病性猪繁殖与呼吸综合征（highly pathogenic porcine reproductive and respiratory syndrome,HP-PRRS））疫苗的最佳免疫程序,在2个镇开展田间免疫试验,A镇采用"332法"免疫程序,即先用FMD和CSF疫苗同时在颈部分两侧注射,间隔14 d后再用HP-PRRS疫苗注射;B镇采用"321法"免疫程序,即将CSF和HP-PRRS疫苗混合后作一针在颈部一侧注射,FMD疫苗作一针在颈部另一侧注射。应用ELISA方法检测FMDV、CSFV和HP-PRRSV抗体,应用RT-PCR方法检测FMDV、CSFV和HP-PRRSV病原;统计、分析生猪免疫密度、免疫副反应率、生猪死淘率、散养猪抗体阳性率、屠宰猪抗体阳性率、死淘猪病原阳性率、屠宰猪病原阳性率等指标。结果显示,应用"321法"的B镇与应用"332法"的A镇相比,其HP-PRRS免疫密度、散养猪CSFV和HP-PRRSV抗体阳性率、屠宰猪HP-PRRSV抗体阳性率均显著增加（P<0.05）,散养猪死淘率、HP-PRRSV阳性率均显著下降（P<0.05）,而其他主要考核指标则差异不显著（P>0.05）。以上结果表明,应用"321法"免疫程序的免疫效果优于"332法",值得在临床推广应用。     

Application Experiment in the Field of FMD,CSF and HP-PRRS Vaccines Simultaneously Vaccinated at Two Different Sites

In order to explore the optimal immune procedure of foot-and-mouth disease (FMD), classical swine fever (CSF) and highly pathogenic porcine reproductive and respiratory syndrome (HP-PRRS) vaccines in backyard pigs in rural areas, field immune experiment was carried out in two towns. Town A used "332" immune procedure, namely, FMD vaccine and CSF vaccine were simultaneously injected at different sides of the neck, and HP-PRRS vaccine was injected 14 days later. Town B used "321" immune procedure, namely, HP-PRRS vaccine and CSF vaccine were mixed together and injected in one side of the neck, and FMD vaccine was injected in the other side of the neck. FMD, CSF and HP-PRRS antibodies were detected by ELISA, and FMDV, CSFV and HP-PRRSV were detected by RT-PCR. The assessment indexes, including the immune density, immune side-reaction rate, death rate of pigs, positive rate of antibody of backyard pigs, positive rate of antibody of slaughter pigs, positive rate of pathogen of backyard pigs, positive rate of pathogen of slaughter pigs and so on, were collected and analyzed. The results showed that, compared with town A used "332" immune procedure, the HP-PRRS immune density, the positive rate of CSF and HP-PRRS antibody of backyard pigs, the positive rate of HP-PRRS antibody of slaughter pigs were significantly increased (P<0.05), while the death rate and the positive rate of HP-PRRSV of slaughter pigs were significantly decreased (P<0.05) in town B used "321" immune procedure. The other major assessment indexes had no significant difference (P>0.05). The results indicated that the immune efficacy of "321" immune procedure was better than that of "332", and it was worthy to be applied in clinical practice.     

Production and characterization of two serotype independent monoclonal antibodies against foot-and-mouth disease virus

Two foot-and-mouth disease virus (FMDV) monoclonal antibodies (mAbs) were produced from mice immunized with either FMDV serotype A, subunit (12S) or FMDV serotype O, whole virus (140S). Both mAbs (F1412SA and F21140SO) recognized all seven serotypes of FMDV in a double antibody sandwich (DAS) ELISA, suggesting that the binding epitopes of the two mAbs are conserved between serotypes. These mAbs are IgG1 isotype and contain kappa light chains. In order to define the mAb binding epitopes, the reactivity of these mAbs against trypsin-treated and denatured FMDV were examined using an indirect ELISA. The binding site of the mAb, F1412SA is trypsin sensitive and the epitope is linear. Both ELISA and Western blot results suggested that the polypeptide VP2 contributed to the immunodominant site. This mAb showed reactivity to VP2 peptide (DKKTEETTILEDRIL). The mAb, F21140SO, recognized an epitope which is trypsin resistant and discontinuous. This mAb binding to FMDV is dependent on conformational structures of intact viral (140S) or subunit (12S) particle, since it failed to recognize any viral protein in Western blot. This conformational and highly conserved epitope is the first identified epitope among all seven FMDV serotypes. Because the use of mAbs increases the specificity, accuracy and efficiency of diagnostic tests compared to polyclonal antisera, these two mAbs with different specificities are suitable for type-independent diagnosis of FMDV, such as DAS ELISA, or could be adapted to immuno-chromatographic or flow-through rapid test.     

The efficacy of FMD vaccine reduced non-structural proteins with a mAb against 3B protein

A monoclonal antibody, 3BIgG, against the prokaryotically expressed foot-and-mouth disease virus (FMDV) non-structural protein (NSP) 3B was obtained. The 3BIgG-sepharose conjugant (3BmAb-6BFF) was prepared by adding the purified 3BIgG into epoxy-activated sepharose 6BFF, incubating with the inactivated FMDV, and then removing the sepharose by centrifugation. The vaccine was made from the supernatant emulsified with oil-adjuvant ISA206. Ten guinea pigs, 26 pigs and six cattle were vaccinated, and a vaccination control group was included without treatment with 3BmAb-6BFF. After 28 days, 9/10 pigs challenged with FMDV were protected, this result was the same as the control group, indicating that the vaccine potency was not reduced after treatment with 3BmAb-6BFF. The other animals were vaccinated weekly for nine weeks, and serum samples were collected to detect 3ABC-antibody titers. The results showed that 3ABC-antibody production was delayed and the positive antibody rates were lower when vaccination was carried out using vaccines treated with 3BmAb-6BFF compared with untreated vaccines. The findings of this study suggest that it is possible to reduce NSPs using a mAb-sepharose conjugant in FMD vaccines without reducing their efficacy.     

豚鼠动物模型评价牛口蹄疫Asia-1型灭活疫苗效力的研究

以豚鼠为试验动物模型,探索一种应用豚鼠替代牛进行牛口蹄疫Asia-1型灭活疫苗效力检验的方法.豚鼠和牛同步对6批牛口蹄疫Asia-1型灭活疫苗进行PD50效力检验,其中2批进行重复性试验.豚鼠分别在免疫后7、14、21和28天采血检测Asia-1型的中和抗体水平.统计学分析显示,测定的豚鼠PD50和牛PD50之间具有极...     

Development and validation of a 3ABC indirect ELISA for differentiation of foot-and-mouth disease virus infected from vaccinated animals

Non-structural protein (NSP) 3ABC antibody is considered to be the most reliable indicator of present or past infection with foot-and-mouth disease virus (FMDV) in vaccinated animals. An indirect ELISA was established, using purified His-tagged 3ABC fusion protein as antigen, for detection of the antibody response to FMDV NSP 3ABC in different animal species. The method was validated by simultaneous detection of the early antibody responses to NSP and structural protein (SP) in FMDV Asia 1 infected animals. The performance of the method was also validated by detection of antibody in reference sera from the FMD World Reference Laboratory (WRL) in Pirbright, UK, and comparison with two commercial NSP ELISA kits. The results showed that the antibody response to SP developed more quickly than that to NSP 3ABC in FMDV infected animals. In contact-infected cattle, the antibody response to NSP 3ABC was significantly delayed compared with that to SP antibody. The early antibody responses to SP and NSP 3ABC in FMDV inoculated cattle and contact-infected or inoculated sheep and pigs were generally consistent. In pigs, 3ABC antibody was linked to the presence of clinical signs; however, in sheep, subclinical infection was detected by the development of 3ABC antibodies. Therefore, the antibody responses to 3ABC varied between host species. Eight out of 10 positive serum samples from FMD WRL were tested to be positive at cutoff value of 0.2. The rate of agreement with the ceditest FMDV-NS and the UBI NSP ELISA were 98.05% (302/308) and 93.2% (287/308), respectively. The prevalence of 3ABC antibodies reached 71.4% in some diseased cattle herds. The further work is required to evaluation the performance of this method in different animal species and different field situations.     

Foot-and-mouth disease in camelids: a review

Foot-and-mouth disease (FMD) in South American camelids, in dromedaries and Bactrians is reviewed. Recent well-executed experimental studies in New World camels indicate that, although the llama and alpaca can be infected with FMD virus (FMDV) by direct contact, they are not very susceptible and do not pose a risk in transmitting FMD to susceptible animal species. They do not become FMDV carriers. Reports on FMD in dromedaries are, however, conflicting. Serological investigations in Africa and the United Arab Emirates (UAE) on thousands of camel sera were negative and experimental infections have been conducted on only a few dromedaries with one serotype and in one country. The design and execution of most of these experiments were poor and therefore the conclusions are questionable. From these investigations, it seems that dromedaries can contract the disease after experimental infection and through close contact with FMD diseased livestock, but do not present a risk in transmitting FMD to susceptible animals. They do not become FMDV carriers. Recent reports from Mongolia describe similar FMD lesions in Bactrian camels. However, so far no samples have tested positive for FMD. To clarify the situation in Bactrians, samples from suspected clinical cases should be tested because other viral vesicular diseases cannot be distinguished from FMD. Thus, further research on the epidemiology of FMD in camelids is necessary. This would include large-scale serological investigations and experimental infections with different FMD serotypes in connection with susceptible contact animals. The Office International des Epizooties (OIE) Code chapter on FMD includes camelids as being susceptible species to FMD, giving the impression that they are similar to cattle, sheep, goats and pigs in their potential involvement in the epidemiology of FMD. This is clearly not the case, and this issue should be re-addressed by the relevant authorities.