Comparison of the serum neutralization test and a competitive enzyme-linked immunosorbent assay for the detection of antibodies to vesicular stomatitis virus New Jersey and vesicular stomatitis virus Indiana.

A competitive enzyme-linked immunosorbent assay (C-ELISA) for the detection of antibodies against vesicular stomatitis virus New Jersey (VSV-NJ) and vesicular stomatitis virus Indiana (VSV-IN) was compared with the serum neutralization test (SNT) using 1,106 serum samples obtained from dairy cattle on sentinel study farms in the Poás region of Costa Rica. Kappa coefficients between the C-ELISA and the SNT were 0.8871 (95% confidence interval [CI]: 0.8587-0.9155) and 0.6912 (95% CI: 0.6246-0.7577) for the VSV-NJ and VSV-IN tests, respectively. These results indicate good to excellent agreement between the 2 tests under these conditions.     

An enzyme-linked immunosorbent assay for the detection of vesicular stomatitis virus antibodies

A liquid-phase enzyme-linked immunosorbent assay (ELISA) was developed for the detection of vesicular stomatitis virus (VSV) types New Jersey (VSV-NJ) and Indiana subtype Indiana I (VSV-IND₁) antibodies in the sera of naturally and experimentally infected cattle, horses and swine. Four different VSV preparations were compared for use as antigen in the ELISA: virus used in neutralization tests, complement-fixation antigen, immunodiffusion ager gel antigen and viral glycoprotein. Comparative antibody titration results of virus neutralization (VN) and ELISA showed no statistically significant difference between serum titers obtained with the four antigens to VSV-NJ (P=0.21) and VSV-IND₁ (P=0.14). The viral glycoprotein antigen was incorporated in the ELISA system because it is non-infectious and induces neutralizing antibodies. The reliability and variability of the ELISA was determined by testing 516 bovine, equine and swine sera which originated from areas free of vesicular stomatitis, and by testing 186 sera from areas where outbreaks occur. ELISA and VN results were correlated (P < 0.001 for both serotypes), and no statiscafically difference was found between replications of the tests. The ELISA allows the testing of a larger number of sera in a shorter time than is possible with the VN test and it can be used in diagnostic laboratories in VSV-free areas for the support of epidemiological surveillance programs.     

An enzyme-linked immunosorbent assay for the detection of bovine antibodies to vesicular stomatitis virus

An indirect enzyme-linked immunosorbent assay (ELISA) was developed to detect bovine antibody to vesicular stomatitis virus (VSV). Serum samples from cows experimentally infected with the New Jersey serotype of VSV (VSV-NJ) were assayed by the ELISA and serum-neutralization (SN) assay. The ELISA was as sensitive as the SN assay in detecting bovine antibody to VSV. The correlation between SN titers and ELISA values at absorbance at 405 nm was statistically significant. The ELISA was not specific for VSV-NJ, however, and could detect serum samples positive to the Indiana serotype of VSV that had SN titers of greater than or equal to 480. Nonspecific reactions were due to cross-reactive group-specific viral proteins that are shared by both serotypes. The cross-reactivity allows the use of a single rapid test in identifying both serotypes of VSV from the other exotic vesicular diseases, especially foot-and-mouth disease. The ELISA titers of serum samples positive for VSV-NJ were comparable with the corresponding SN titers of each sample. The sensitivity, rapidity, and ease of the ELISA system and the use of a single test in identifying both serotypes of VSV from the other exotic vesicular diseases make this ELISA suitable as a rapid diagnostic assay for VS.     

Neutralizing antibodies against vesicular stomatitis viruses (serotypes New Jersey and Indiana) in horses in Costa Rica.

Serum samples were collected from domestic horses in 4 different regions of Costa Rica to detect antibodies against vesicular stomatitis viruses, serotypes New Jersey (VSV-NJ) and Indiana (VSV-IN). A total of 214 samples were tested by the virus neutralization test. The sampling regions were identified as low North Pacific dry area (1), low Middle Atlantic humid area (2), low South Pacific humid area (3), and the highlands (4). In region 1, 97.1% of horses were positive for VSV-NJ and 16.5% were positive for VSV-IN. The mean antibody titer and its standard deviation after logarithmic transformation were 5.86 +/- 0.9 for VSV-NJ and 3.55 +/- 1.66 for VSV-IN for region 1. In region 2, 40.7% of horses were positive for VSV-NJ and 32.2% were positive for VSV-IN. The mean antibody titer in region 2 was 4.33 +/- 1.82 for VSV-NJ and 3.47 +/- 1.73 for VSV-IN. In region 3, 20.79% of horses were positive for VSV-NJ and 27.6% were positive for VSV-IN. The mean antibody titer in region 3 was 4.39 +/- 1.89 for VSV-NJ and 3.47 +/- 1.82 for VSV-IN. In region 4, 91.3% of horses were positive for VSV-NJ and 73.9% were positive for VSV-IN. The mean antibody titer in region 4 was 5.77 +/- 1.10 for VSV-NJ and 4.85 +/- 1.63 for VSV-IN. This is the first published report of the detection of virus-neutralizing antibodies against VSV-NJ and VSV-IN in horses in Costa Rica.     

A prospective study of vesicular stomatitis in cattle in an enzootic region of Mexico

A prospective study of vesicular stomatitis was conducted in two bovine herds in southeastern Mexico. In July 1987, an initial serological screening showed that 64% and 87% of the 654 cattle tested negatively to vesicular stomatitis New Jersey and Indiana antibodies, respectively, using the plaque-reduction serum neutralization test. Most seropositive animals were at least 24 months of age. Based on the initial serological screening, cohorts of seronegative and seropositive cattle were monitered (January–December 1988) for the prevalence of vesicular stomatitis virus (VSV) antibodies using an enzyme-linked immunosorbent assay (ELISA). The serological results, using ELISA, indicated that no VSV activity occured in the two study herds. The seronegative cohort of cattle did not yield a positive seroconversion pattern to either VSV Indiana or New Jersey. The seropositive cohort showed a variable antibody response pattern against the VSV. There were no clinical cases of vesicular stomatitis (VS) in the two herds. The data from the national surveillance program for vesicular diseases suggested that 1988 was a year of low VSV infection incidence in southeastern Mexico.     

Effect of strain and serotype of vesicular stomatitis virus on viral shedding, vesicular lesion development, and contact transmission in pigs

OBJECTIVE: To determine whether pigs can be infected with strains of vesicular stomatitis virus New Jersey (VSV-NJ) and vesicular stomatitis virus Indiana (VSV-I) isolated during recent vesicular stomatitis outbreaks that primarily involved horses in the western United States and determine the potential for these viruses to be transmitted by contact. ANIMALS: 128 pigs. PROCEDURE: Pigs were challenged with VSV-NJ or VSV-I from the 1995 and 1997 outbreaks of vesicular stomatitis in the western United States, respectively, or with VSV-NJ (OS) associated with vesicular stomatitis in feral pigs on Ossabaw Island, Ga. Pigs (3/group) were inoculated with each virus via 3 routes and evaluated for viral shedding, seroconversion, and the development of vesicular lesions. In another experiment, the potential for contact transmission of each virus from experimentally infected to na?ve pigs was evaluated. RESULTS: Infection of pigs was achieved for all 3 viruses as determined by virus isolation and detection of seroconversion. In inoculated pigs, all 3 viruses were isolated from multiple swab samples at concentrations sufficient to infect other pigs. However, compared with results obtained with the 2 VSV-NJ strains, viral titers associated with VSV-I were low and the duration of virus shedding was reduced. Results from the contact transmission trials were consistent with these results; virus transmission was detected most frequently with the VSV-NJ strains. CONCLUSIONS AND CLINICAL RELEVANCE: Pigs can be infected with VSV-NJ and VSV-I. Differences in the extent of viral shedding and potential for contact transmission were apparent between serotypes but not between the VSV-NJ strains investigated.     

水疱性口炎病毒RT-LAMP快速检测方法的研究

根据逆转录环介导等温扩增(RT-LAMP)原理,针对水疱性口炎病毒(VSV)糖蛋白G基因序列中的6个区域设计内外各1对特异引物,建立扩增VSV糖蛋白(G)基因的RT-LAMP方法。扩增产物电泳呈特异的阶梯状条带分布,扩增产物加SYBR GREEN I染色呈特征性的黄绿色,肉眼可直接观察判定。同时,还建立了可以进行定量检测的实时RT-LAMP方法。特异性试验显示,本方法可快速检验鉴别VSV与口蹄疫病毒(FMDV)和猪水泡病病毒(SVDV)。敏感性试验显示,建立的实时RT-LAMP方法检测VSVRNA的最低检测量为0.01 PFU,比实时荧光RT-PCR显著提高。建立的LAMP方法可检测p-VSVNJ质粒DNA的最低量为6.36×10-3pg/μL(1.4×103copies/μL),比PCR也显著提高。综合表明,本研究建立RT-LAMP检测VSV的方法具有特异、敏感、快速、简便的特点,具有开发应用前景。     

Evaluation of an enzyme-linked immunosorbent assay for detection of antibodies to vesicular stomatitis virus in cattle in an enzootic region of Mexico.

An ELISA was compared with the plaque-reduction serum neutralization (PRSN) test, for detection of vesicular stomatitis virus (VSV) antibodies in cattle in a vesicular stomatitis enzootic region of Mexico. A total of 325 bovine serum samples were screened for VSV antibodies. The PRSN test was performed, using Vero cells. The ELISA contained gradient-purified VSV Indiana (Lab strain) and VSV New Jersey (Hazelhurst) as the antigens. Regression analysis and weighted kappa statistic were used to estimate measures of agreement between the 2 assays for detection of VSV antibodies. The ELISA method proved useful for serodiagnosis of vesicular stomatitis. The ELISA and PRSN test results were highly correlated for detection of VSV antibodies.     

Development and evaluation of an enzyme-linked immunosorbent assay for detection, typing, and subtyping of vesicular stomatitis virus.

An indirect sandwich enzyme-linked immunosorbent assay (ELISA) has been used for vesicular stomatitis virus (VSV) typing using sets of monovalent and polyvalent rabbit/guinea pig antisera for identification of VSV types New Jersey (VNJ) and Indiana (VIND). The VIND polyvalent antiserum (VIND-P) detects any strain of the 3 subtypes of the VIND type (VIND-1, VIND-2, and VIND-3) with the same strong reactivity. It is also possible to subtype the VIND strains using VIND-P rabbit antiserum as capture antibody and monovalent VIND-1, VIND-2, or VIND-3 guinea pig antisera as detector. The ELISA proposed has about 10 times more sensitivity and provides 10% more positive results than does the complement fixation 50% (CF50) test when epithelial samples are tested.     

TaqMan~T-PCR对水疱性口炎病毒的鉴定检测

水疱性口炎分为印第安那型 ( Indiana)和新泽西型 ( New Jersey)。这两种血清型病毒的快速和可靠的鉴别对该病的诊断、检疫、分子流行病学调查和监测至关重要。文章按照 VSV核蛋白基因序列 ,设计了一对两型通用引物和两型各自特异性探针。研究建立了 VSV实时荧光定量 PCR检测方法 ,对 VSV细胞培养物、人工感染实验动物组织、血清样品 ,以及系列稀释的不同 TCID50 样品、其它相关或相似病毒进行鉴定 ,同时与常规 PCR、病毒分离试验作了比较。Taq Man○R RT-PCR的特异性和敏感性相当于或优于对照方法。重复性和稳定性试验证实 ,该方法可靠。每个试验中设立阳性、阴性对照和标准稀释度对照 ,使试验结果可对病毒 RNA作准确定量 ,并可在 4h内获得结果。研究结果表明 ,Taq Man○R RT-PCR方法是一种特异性强、敏感性高、快速安全的定量检测方法。因此 ,可以作为 VSV的快速检测和定型。     

An enzyme-linked immunosorbent assay for the detection of vesicular stomatitis virus antigen

An indirect, sandwich enzyme-linked immunosorbent assay (ELISA) has been developed for the laboratory diagnosis of vesicular stomatitis (VS). The assay which uses rabbit and guinea-pig antisera to the purified glycoprotein antigens of Serotypes New Jersey (VSV-NJ) and Indiana (VSV-IND-1), has both high sensitivity and specificity, but has lower reactivity for the two other Indiana subtypes VSV-IND-2 and VSV-IND-3.     

Microarray-based detection of viruses causing vesicular or vesicular-like lesions in livestock animals

Definitive diagnosis of vesicular or vesicular-like lesions in livestock animals presents challenges both for veterinary clinicians and diagnostic laboratories. It is often impossible to diagnose the causative disease agent on a clinical basis alone and difficult to collect ample vesicular epithelium samples. Due to restrictions of time and sample size, once laboratory tests have ruled out foot-and-mouth disease, vesicular stomatitis and swine vesicular disease a definitive diagnosis may remain elusive. With the ability to test a small quantity of sample for a large number of pathogens simultaneously, DNA microarrays represent a potential solution to this problem. This study describes the application of a long oligonucleotide microarray assay to the identification of viruses known to cause vesicular or vesicular-like lesions in livestock animals. Eighteen virus isolates from cell culture were successfully identified to genus level, including representatives of each foot-and-mouth disease virus serotype, two species of vesicular stomatitis virus (VSV), swine vesicular disease virus, vesicular exanthema of swine virus (VESV), bovine herpesvirus 1, orf virus, pseudocowpox virus, bluetongue virus serotype 1 and bovine viral diarrhoea virus 1. VSV and VESV were also identified in vesicular epithelium samples, with varying levels of sensitivity. The results indicate that with further development this microarray assay could be a valuable tool for the diagnosis of vesicular and vesicular-like diseases.     

Experimental vesicular stomatitis virus infection of swine: Extent of infection and immunological response

Swine, a natural host species for infection by vesicular stomatitis virus (VSV), were infected with VSV-New Jersey (VSV-NJ) serotype virus obtained from a recent field isolate. Tissues collected from the infected pigs were examined for the presence of infective virus, for viral antigens, and/or for viral nucleic acid. Infective virus could be recovered from tissues near the site of infection for as long as 6 days after the primary infection with VSV. However, no infective virus was recovered following hypothermia induced 11 weeks after infection, or following a secondary challenge with virus 22 weeks after initial infection. Immunofluorescence tests for viral antigens and nucleic acid hybridization assays failed to detect viral antigens or nucleic acids in tissues from which no infective virus could be recovered. Titers of serum-neutralizing antibody peaked 3–5 weeks after infection and then fell slightly until the secondary infection which caused a rapid anamnestic response. Peripheral blood mononuclear cells (PBM) tested 3, 5, 8 or 18 weeks after primary infection all produced readily detectable antigen-specific proliferative responses when cultured with VSV. Thus, although direct tests failed to demonstrate persistence of virus after infection, the humoral and cellular immune response remained elevated for months. Infective VSV was not required to stimulate the proliferative response since UV-inactivated VSV was immunogenic in these in vitro tests. Following primary infection, antigen-specific proliferative responses could be stimulated by several strains of VSV-NJ, but not by VSV-Indiana (VSV-Ind) serotype virus. Secondary infection had relatively little effect on the proliferative response to VSV-NJ strains, but it did cause the PBM to gain responsiveness to VSV-Ind.     

Antigen-specific proliferative responses to vesicular stomatitis virus following immunization of cattle with inactive virus

Peripheral blood mononuclear cells (PBM) from four normal cows with no known exposure to vesicular stomatitis virus (VSV) were cultured with a New Jersey (NJ) serotype (Ogden) VSV that had been UV-irradiated and inactivated. PBM from these animals produced no detectable proliferative response when incubated with varying concentrations of VSV-NJ (Ogden) ranging from 10 ng to 10 μg protein/ml. Two of these cows were immunized with an experimental VSV-NJ vaccine and their PBM were tested at various intervals after immunization. PBM tested 14 days after the initial immunization produced readily detectable antigen-specific proliferative responses when cultured with UV-irradiated strains of VSV-NJ. Following a second immunization, lower concentrations of antigen were sufficient to stimulate the proliferative response and the magnitude of the proliferative response was increased. The responsiveness persisted for at least 6 months after these two immunizations. The specificity of the proliferative response was examined by comparing the responses stimulated by one VSV-Ind and four VSV-NJ serotype strains. The PBM from the immunized cows produced proliferative responses that were essentially specific for the VSV-NJ serotype antigens. In dose titrations, the VSV-NJ antigens were 300–1000-fold more effective than was the VSV-Ind antigen. Thus, persistent antigen-specific proliferative responsiveness that is serotype specific can be stimulated by immunizing cattle with an inactivated VSV vaccine.     

Contact transmission of vesicular stomatitis virus New Jersey in pigs

OBJECTIVE: To determine how viral shedding and development or lack of clinical disease relate to contact transmission of vesicular stomatitis virus New Jersey (VSV-NJ) in pigs and determine whether pigs infected by contact could infect other pigs by contact. ANIMALS: 63 pigs. PROCEDURE: Serologically naive pigs were housed in direct contact with pigs that were experimentally inoculated with VSV-NJ via ID inoculation of the apex of the snout, application to a scarified area of the oral mucosa, application to intact oral mucosa, or ID inoculation of the ear. In a second experiment, pigs infected with VSV-NJ by contact were moved and housed with additional naive pigs. Pigs were monitored and sampled daily for clinical disease and virus isolation and were serologically tested before and after infection or contact. RESULTS: Contact transmission developed only when vesicular lesions were evident. Transmission developed rapidly; contact pigs shed virus as early as 1 day after contact. In pens in which contact transmission was detected, 2 of 3 or 3 of 3 contact pigs were infected. CONCLUSIONS AND CLINICAL RELEVANCE: Transmission was lesion-dependent; however, vesicular lesions often were subtle with few or no clinical signs of infection. Contact transmission was efficient, with resulting infections ranging from subclinical (detected only by seroconversion) to clinical (development of vesicular lesions). Long-term maintenance of VSV-NJ via contact transmission alone appears unlikely. Pigs represent an efficient large-animal system for further study of VSV-NJ pathogenesis and transmission.     

Development of an immunoelectroosmophoresis test for the detection and typing of antibodies to vesicular stomatitis viruses.

This study was conducted to develop a rapid test to detect type specific antibodies to various strains of vesicular stomatitis virus. Glycoprotein was extracted from purified vesicular stomatitis virus-Indiana 3 and used as antigen in an immunoelectroosmophoresis test (counter immunoelectrophoresis) to test reactivity with homologous hyperimmune serum and antisera to vesicular stomatitis virus-New Jersey, Indiana 1 and Indiana 2. A reaction was only detected with the homologous antiserum. A simpler preparation of antigen, a detergent extract of infected cells was also evaluated and shown to have less specificity in reactions with hyperimmune sera. This infected cell extract was, however, useful in detecting homologous antibodies in convalescent sera (natural vesicular stomatitis virus-New Jersey infection) and no reactions were detected with infected cell extracts of vesicular stomatitis virus-Indiana 1, 2 and 3.     

水泡性口炎病毒双抗体夹心ELISA检测方法的建立

为建立方便快捷的水泡性口炎病毒(VSV)检测方法,本研究以抗VSV单克隆抗体(MAb)为捕获抗体,兔抗VSV多克隆抗体为检测抗体,建立VSV双抗体夹心ELISA检测方法。结果显示,该方法的最佳工作条件为:抗VSV MAb 1A2的包被浓度为3.09μg/mL,兔抗VSV多克隆抗体和酶标抗体的工作浓度分别为5.16μg/mL和1∶5 000,以OD450nm≥0.231作为阳性判定标准。该ELISA方法对猪水泡病病毒、猪水疱疹病毒及羊传染性脓疱病毒等均无交叉反应;敏感度可达3.125μg/mL(101TCID50);其重复性变异系数小于10%。采用建立的ELISA方法与RT-PCR方法同时检测187份临床样品,符合率达到97.9%,具有良好的相关性。本实验建立的VSV双抗体夹心ELISA检测方法具有特异性好、敏感性高、成本低及方便快捷等优点,可以用于VSV的快速检测。     

多重RT-PCR检测猪口蹄疫病毒、猪水泡病病毒和猪水疱性口炎病毒的研究

建立了一种同时检测猪口蹄疫病毒(FMDV)、猪水泡病病毒(SVDV)和猪水疱性口炎病毒(VSV)三种病原体的多重RT-PCR方法。参照文献报道的基因序列,设计合成了三对特异性引物;PCR扩增条件进行优化后,用这三对引物对同一样品中的FMDV、SVDV、VSVRNA模板进行扩增,结果同时得到了三条特异性条带,大小与试验设计相符:FMDV(208bp)、SVDV(862bp)、VSV(638bp),且对猪瘟病毒(CSFV)、猪繁殖与呼吸综合症病毒(PRRSV)和猪传染性胃肠炎病毒(TGEV)核酸扩增结果为阴性;三种病毒RNA模板检出的最小量均为10fg。试验证明,此方法经济、快速、敏感、特异,可用于FMDV、SVDV和VSV这三种猪水泡性疾病的鉴别诊断及流行病学调查。     

A 3-year pilot study of sentinel dairy herds for vesicular stomatitis in El Salvador

The occurrence of vesicular stomatitis (VS) was investigated in El Salvador through monthly visits to 12 sentinel cattle operations located in four different departments. Management, environmental, and spatial data were collected. Heifers were enrolled on the operations and were examined and bled monthly for 3 years. Two competitive ELISAs were used to detect antibodies on each sample for each serotype of VS virus (VSV). On 8 of the 12 operations, small terrestrial rodents were trapped, blood samples collected, and antibodies to both VS serotypes evaluated using a serum-neutralization test for each virus serotype.

Similar to other studies of VS in Central America, the seroprevalence of the New Jersey serotype was higher than the seroprevalence to the Indiana serotype. An outbreak of VS appeared to occur in the Department of Sonsonate in the summer of 1999. We confirmed that VS is endemic in the four departments investigated in El Salvador.