Enzyme immunoassay for detection of antibodies against eastern equine encephalomyelitis virus in sentinel chickens

We developed an enzyme immunoassay (EIA) for the detection of immunoglobulin M (IgM) and IgG subclass antibodies directed against eastern equine encephalomyelitis (EEE) virus in chickens. The assays were compared with the serum plaque reduction neutralization test (PRNT) and the hemagglutination inhibition (HI) test for ability to detect antibodies against EEE virus in laboratory-infected birds. No cross-reactivity was detected in serum from chickens inoculated with St. Louis encephalitis or Highlands J virus. The interval after infection when EEE virus-specific antibodies were first detected by IgM and IgG EIAs was found to be similar to that determined by the PRNT and HI tests: 2 to 4 days. The IgG EIA, PRNT, and HI test detected antibodies to EEE virus for at least 27 to 30 days after inoculation. In contrast, serum from five of seven chickens did not contain detectable IgM 30 days after infection. Similarly, in all three naturally infected sentinel chickens from Maryland, IgM class antibody was undetectable 1 to 5 weeks after IgM was initially detected. EIAs provide simple and rapid alternatives to traditional tests for monitoring EEE virus infections in sentinel chicken flocks. Moreover, the IgM EIA provides a means to separate recently infected chickens from those infected greater than or equal to 1 month earlier.     

Real-time monitoring of flavivirus induced cytopathogenesis using cell electric impedance technology

A real-time cell analysis (RTCA) system based on cell-substrate electric impedance technology was used to monitor cytopathic effects (CPE) in Vero cell cultures infected with West Nile virus (WNV) and St. Louis encephalitis virus (SLEV) at infectious doses ranging from 10¹ to 10⁶ plaque forming units (PFU) of virus. A kinetic parameter characterizing virus-induced CPE, CIT₅₀ or the time to 50% decrease in cell impedance, was inversely proportional to virus infectious dose. In WNV-infected cells, the onset and rate of CPE was earlier and faster than in SLEV-infected cells, which was consistent with viral cytolytic activity. A mathematical model simulating impedance-based CPE kinetic curves indicated that the replication rate of WNV was about 3 times faster than SLEV. The RTCA system also was used for quantifying the level of cell protection by specific neutralizing antibodies against WNV and SLEV. The onset of WNV or SLEV-induced CPE was delayed in the presence of specific anti-sera, and this delay in the CIT₅₀ was well correlated with the titer of the neutralizing antibody as measured independently by plaque reduction neutralization tests (PRNT). The RTCA system provided a high throughput and quantitative method for real-time monitoring viral growth in cell culture and its inhibition by neutralizing antibodies.     

Real-time quantitative PCR-based serum neutralization test for detection and titration of neutralizing antibodies to chicken anemia virus

Detection and titration of chicken anemia virus (CAV)-neutralizing antibodies has relied on tedious, time-consuming passaging of infected cells, or subjective recognition of cytopathic effect in individual cells, because CAV replicates in culture only in lymphoblastoid cell lines, and thus generates no plaques. This paper describes a rapid method, in which CAV genomes in infected cells are quantitated by qPCR 3-4 days postinfection (p.i.), without passaging cells. Three sera, weakly positive with a commercial CAV ELISA kit, from broiler chickens immunized with a commercial CAV vaccine, were used to develop the assay. Virus neutralization titers of these sera were determined using two different CAV-susceptible cell lines (MDCC-MSB1 and MDCC-CU147) by the conventional method of passaging cells infected with 10,000 TCID(50) CAV per well, and by qPCR-based methods using cells infected with 100 or 10,000 TCID(50) per well in 24-well or 96-well plates. The method was also adapted to conventional PCR. The positive sera exhibited virus neutralization activity at dilutions ranging from 1:10 to 1:320 by the various assays. Although virus neutralization titers differed somewhat depending on the assay conditions used, the relative order of the titers of the three positive sera was the same for all assays. The qPCR-based assays are as sensitive and more rapid for detection of neutralizing antibody than the conventional assay based on passaging infected cells, and more sensitive for detection of low-level CAV antibodies than a commercial blocking ELISA.     

Evaluation of a Diagnostic Algorithm Using Immunoglobulin M Enzyme-Linked Immunosorbent Assay To Differentiate Human West Nile Virus and St. Louis Encephalitis Virus Infections during the 2002 West Nile Virus Epidemic in the United States

A diagnostic algorithm was developed to differentiate between human infections of West Nile virus (WNV) and St. Louis encephalitis virus (SLEV) using positive-to-negative (P/N) ratios derived from the immunoglobulin M capture enzyme-linked immunosorbent assay (MAC-ELISA). To validate this algorithm, we tested 1,418 serum and cerebrospinal fluid (CSF) samples from confirmed WNV and SLEV infections collected during the WNV epidemic of 2002 in the United States. WNV P/N-to-SLEV P/N ratios (W/S ratios) were calculated and used to identify the infecting virus. These results were compared to results from the plaque reduction neutralization test (PRNT), which is currently the standard assay used to discriminate between closely related flavivirus infections. If the W/S ratio was ≥1, the predictive value positive (PNP) for WNV was 97.8%, where 95% of flavivirus cases were due to WNV infection and only 3.7% of specimens would require PRNT to differentiate WNV from SLEV infection. Use of the W/S ratio as part of the testing algorithm to interpret MAC-ELISA results generates reportable probable cases quickly, alleviating the need for PRNT in most instances.     

Sensitive plaque neutralization assay for parainfluenza virus types 1, 2, and 3 and respiratory syncytial virus.

A sensitive plaque neutralization assay for parainfluenza virus types 1, 2, and 3 and respiratory syncytial virus was developed in Vero and MA 104 cell cultures. The tests were performed in semimicrotoiter trays containing 24 wells, 16 mm in diameter. Parainfluenza virus type 1 formed plaques in Vero and MA 104 cells only when trypsin was added to the overlay medium. Plaquing of parainfluenza virus type 1 was more sensitive and technically reproducible in MA 104 cells than in Vero cells. Parainfluenza virus types 2 and 3 and respiratory syncytial virus readily formed plaques in Vero cells. Plaques with all viruses were necrotic in character, except for plaques produced by parainfluenza virus type 3, which appeared red due to an increased uptake of neutral red by infected cells. Different conditions for plaquing of the four viruses had to be used to obtain plaques of suitable size. Antibody titers of commercially prepared guinea pig typing sera were 5- to 50-fold higher by the plaque neutralization test than by complement fixation. The addition of guinea pig immunoglobulin G antiglobulin to the serum-virus mixtures enhanced the conventional neutralization test 5- to 10-fold. The sensitivity and specificity of the plaque neutralization test was also determined with sera of marmosets experimentally infected with parainfluenza virus types 1 and 3. The generally low postinfection titers could be enhanced, on the average, 40-fold by using human immunoglobulin G antiglobulin in the neutralization test. A low degree of cross-reactivity was shown between parainfluenza virus types 1 and 3 both in the conventional neutralization test and in the anti-immunoglobulin enhanced neutralization test.     

Detection of antibody to chicken anaemia agent: a comparison of three serological tests

A comparison was made between sensitivities of the virus neutralisation (VN) test, indirect fluorescent-antibody (IFA) test and enzyme-linked immunosorbent assay (ELISA) for the detection of antibodies to chicken anaemia agent (CAA). Sera from chickens inoculated with CAA at 11 weeks of age and from specific pathogen-free (SPF) and field breeder chicken flocks were tested. Seroconversion was detected by the three tests in all the inoculated birds at 2 to 3 weeks post-inoculation (pi). Neutralising antibody to CAA was still detectable in all the inoculated birds 37 weeks after infection, the end of the observation period. One of the seven inoculated birds tested by the ELISA gave positive results for the same period whereas the IFA test detected anti-CAA antibody only for 9 weeks. In field sera, the VN test detected many more positive sera than did the ELISA and IFA test. No antibodies to CAA were detected in sera of SPF chickens by the three tests. The IFA test frequently gave false positive results when VN antibody-negative sera were tested at dilutions of 相似文献   

Detection of rhinovirus RNA in nasal epithelial cells by in situ hybridization

This paper describes the development and evaluation of in situ hybridization (ISH) for the detection of rhinovirus in cells obtained from nasal washings of volunteers infected with human rhinovirus 14 (HRV-14). Twenty-five (66%) and 27 (71%) of 38 volunteers inoculated with HRV-14 had evidence of infection by virus isolation and ISH, respectively, on at least one of 4 days investigated after virus challenge. In contrast, only 14 of 38 (37%) volunteers had significant antibody rises as detected by the neutralization test. Of the 38 volunteers inoculated with HRV-14, only 13 (34%) had symptoms of colds. Of these, 12 (92%) and 10 (77%) were positive by virus isolation or ISH, respectively, on at least one day. Six (46%) had significant antibody rises by neutralization. Similarly, of the 38 volunteers challenged, 22 (58%) were asymptomatic and of these 10 (45.5%) and 12 (54.5%) were positive by virus isolation and ISH, respectively, on at least one day. Only 8 (36.4%) of these asymptomatic volunteers showed significant antibody rises by neutralization. There were significant associations between the detection of rhinoviruses by ISH and virus isolation on the third day (P less than 0.025) after virus challenge in the group as a whole and in the symptomatic group. These results show that generally rhinovirus detection by ISH compares well with virus isolation and both tests are clearly more sensitive than the neutralization test in detecting evidence of infection. It is concluded that ISH is an interesting new technique that may play an important role in the study of rhinovirus infection and pathogenesis.     

Evaluation of a diagnostic algorithm using immunoglobulin M enzyme-linked immunosorbent assay to differentiate human West Nile Virus and St. Louis Encephalitis virus infections during the 2002 West Nile Virus epidemic in the United States

A diagnostic algorithm was developed to differentiate between human infections of West Nile virus (WNV) and St. Louis encephalitis virus (SLEV) using positive-to-negative (P/N) ratios derived from the immunoglobulin M capture enzyme-linked immunosorbent assay (MAC-ELISA). To validate this algorithm, we tested 1,418 serum and cerebrospinal fluid (CSF) samples from confirmed WNV and SLEV infections collected during the WNV epidemic of 2002 in the United States. WNV P/N-to-SLEV P/N ratios (W/S ratios) were calculated and used to identify the infecting virus. These results were compared to results from the plaque reduction neutralization test (PRNT), which is currently the standard assay used to discriminate between closely related flavivirus infections. If the W/S ratio was > or =1, the predictive value positive (PNP) for WNV was 97.8%, where 95% of flavivirus cases were due to WNV infection and only 3.7% of specimens would require PRNT to differentiate WNV from SLEV infection. Use of the W/S ratio as part of the testing algorithm to interpret MAC-ELISA results generates reportable probable cases quickly, alleviating the need for PRNT in most instances.     

Rapid, sensitive, competitive serologic enzyme-linked immunosorbent assay for detecting serum antibodies to bovine herpesvirus type 1.

An enzyme-linked immunosorbent assay (ELISA) for the detection of cattle antibodies to bovine herpesvirus type 1 was developed on the basis of competition between serum antibody and a virus-neutralizing mouse monoclonal antibody. The assay showed improved sensitivity over the virus neutralization (VN) test and over an enhanced VN test in which incubation of antibody-virus mixtures was carried out for 24 h. With the ELISA, antibodies in sera from experimentally infected cattle were detected earlier after infection and showed more rapid increases in levels. A comparison of the ELISA with the VN tests by using a set of 85 field sera with low levels of antibodies demonstrated that the ELISA was the most sensitive test, detecting 10 positive serum samples that were negative by the VN tests. The ELISA was inexpensive, rapid, and highly reproducible and showed a significant improvement in sensitivity over VN tests.     

实时RT-PCR检测西尼罗病毒

目的建立西尼罗病毒快速、敏感和特异的实时RT-PCR法,用于西尼罗病毒疾病的早期诊断。方法对Vero细胞增殖的西尼罗病毒分别进行常规RT-PCR和实时RT-PCR法扩增,以PFU／ml为参考标准,比较二者的敏感性和特异性。并用实时RT-PCR法检测西尼罗病毒感染的小鼠组织标本。结果采用所建立的实时RT-PCR法和常规RT-PCR法可分别检测到0．02PFU／ml和2PFU／ml的西尼罗病毒RNA,前者的敏感性比后者高100倍。而对其他黄病毒科成员的检测均为阴性,表明该方法是特异的。采用这种实时RT-PCR法可从西尼罗病毒感染小鼠的血液、脾脏、肾脏和脑组织标本中检测出病毒核酸,且在感染后第2天最先自血液和脾脏中检测到病毒,在感染后1周的脑组织中的病毒滴度最高。结论本研究建立的实时RT-PCR法具有很高的敏感性和特异性,因此该方法可用于西尼罗病毒疾病的早期监测和流行病学研究。     

Monoclonal antibody-based competitive enzyme-linked immunosorbent assay for detecting and quantifying West Nile virus-neutralizing antibodies in horse sera

A rapid immunoassay for detecting and quantifying West Nile virus (WNV)-neutralizing antibodies in sera was developed as an alternative to the plaque reduction neutralization test (PRNT), the gold standard test for WNV. The assay is a competitive, enzyme-linked immunosorbent assay using neutralizing monoclonal antibody 5E8 (NT-ELISA). A cutoff percent inhibition (PI) value of 35% (mean PI plus 3 standard deviations), with a specificity of 99%, was established based on analysis of 246 serum samples from horses free of WNV. The NT-ELISA detected neutralizing antibodies in all sera collected 7 or 14 days postinoculation from mice (n = 11) infected with lineage I (strain NY385-99) or II (strain B956) WNV. When sera from WNV-vaccinated horses (n = 212) were tested by NT-ELISA and PRNT, the NT-ELISA gave a positive result for 96.1% (173/180) of the PRNT-positive sera and 3.1% (1/32) of the PRNT-negative sera. Discrepancies between the two tests were observed mainly with sera with low PRNT(90) titers (expressed as the reciprocal of the highest dilution yielding > or = 90% reduction in the number of plaques) for WNV or low PIs by NT-ELISA. The overall agreement (k value) between the two tests was 0.86. A good correlation (r(2) = 0.77) was also observed between the tests for endpoint titration of sera (n = 116). In conclusion, the newly developed NT-ELISA may be a good alternative serologic assay for detecting WNV that can be used for large-scale testing of WNV-neutralizing antibodies in multiple species.     

Evaluation of widely used diagnostic tests to detect West Nile virus infections in horses previously infected with St. Louis encephalitis virus or dengue virus type 2

Primary West Nile virus (WNV) infections can be diagnosed using a number of tests that detect infectious particles, nucleic acid, and specific IgM and/or IgG antibodies. However, serological identification of the infecting agent in secondary or subsequent flavivirus infections is problematic due to the extensive cross-reactivity of flavivirus antibodies. This is particularly difficult in the tropical Americas where multiple flaviviruses cocirculate. A study of sequential flavivirus infection in horses was undertaken using three medically important flaviviruses and five widely utilized diagnostic assays to determine if WNV infection in horses that had a previous St. Louis encephalitis virus (SLEV) or dengue virus type 2 (DENV-2) infection could be diagnosed. Following the primary inoculation, 25% (3/12) and 75% (3/4) of the horses mounted antibody responses against SLEV and DENV-2, respectively. Eighty-eight percent of horses subsequently inoculated with WNV had a WNV-specific antibody response that could be detected with one of these assays. The plaque reduction neutralization test (PRNT) was sensitive in detection but lacked specificity, especially following repeated flavivirus exposure. The WNV-specific IgM enzyme-linked immunosorbent assay (IgM ELISA) was able to detect an IgM antibody response and was not cross-reactive in a primary SLEV or DENV response. The WNV-specific blocking ELISA was specific, showing positives only following a WNV injection. Of great importance, we demonstrated that timing of sample collection and the need for multiple samples are important, as the infecting etiology could be misdiagnosed if only a single sample is tested.     

New Sensitive Competitive Enzyme-Linked Immunosorbent Assay Using a Monoclonal Antibody against Nonstructural Protein 1 of West Nile Virus NY99

An anti-West Nile virus (anti-WNV) monoclonal antibody, SHW-7A11, was developed for competitive enzyme-linked immunosorbent assays (c-ELISAs). SHW-7A11 reacted with nonstructural protein 1 in Western blot analysis. SHW-7A11 was relatively specific for the WNV strain NY99 and recognized Kunjin and Eg101 strains in indirect ELISAs. Two c-ELISAs were developed for sera diluted 10 and 100 times and named c-ELISA10 and c-ELISA100, respectively. Both c-ELISAs detected antibodies against WNV NY99 and Kunjin strains. Little cross-reactivity was observed for antibodies against Japanese encephalitis virus and St. Louis encephalitis virus in these assays. Using the cutoff point for the St. Louis encephalitis virus, all WNV-infected chickens were found to be positive on day 21 after infection in both c-ELISAs. On the other hand, all infected chickens were found to be positive on day 35 after infection in a virus neutralization test. Our newly developed SHW-7A11-based c-ELISA can detect WNV infection with sera diluted 10 to 100 times. Therefore, this c-ELISA can be used for WNV serosurveillance of chickens and wild birds.     

Reliable confirmation of antibodies to bovine respiratory syncytial virus (BRSV) by enzyme-linked immunosorbent assay using BRSV nucleocapsid protein expressed in insect cells.

The nucleocapsid (N) protein of bovine respiratory syncytial virus (BRSV) in the baculovirus expression system was evaluated as a source of antigen in an enzyme-linked immunosorbent assay (ELISA) for the detection of respiratory syncytial virus (RSV) antibodies. The recombinant N protein was purified from infected-cell extracts by sucrose gradient centrifugation and used in the ELISA for the detection of antibodies to various RSV strains. The ELISA was compared with the virus neutralization (VN) test for determining BRSV antibodies in 10 consecutive serum samples from four calves vaccinated with a live modified BRSV vaccine and from two nonvaccinated control calves. The ELISA compared favorably with the VN test for detecting serological responses. All serum samples which were positive in the VN test were also positive in the ELISA. None of the serum samples collected from the two nonvaccinated calves reacted in the ELISA. To determine the usefulness of the ELISA for epidemiological studies, 58 cattle serum samples were tested in the ELISA and the VN test. Approximately 94% (42 of 45) of field serum samples which were positive in the ELISA were also positive in the VN test. No case was found in which the ELISA result was negative and the VN test result was positive. Thirteen of the serum samples were negative in both methods. Our results indicate that the ELISA with the baculovirus-expressed N protein as an antigen is an efficient, sensitive, and specific method for detecting serum antibodies to RSV.     

A comparison of three serological methods to detect chicken and turkey antibodies to avian nephritis virus and the use of virus-specific monoclonal antibodies

Avian nephritis virus (ANV) strain G-4260 was inoculated orally in to 1-day-old and 3-week-old chickens and the sequential antibody response to the virus was monitored by serum neutralization, ELISA and immunofluorescence tests. The order of sensitivity of the serological tests was in the sequence given above, with the neutralization test being by far the most sensitive. There was no obvious difference in the antibody titres produced by either age group. Virus was recovered from kidney tissue, the highest titres being obtained 3 to 5 days post-inoculation. Histological examination revealed mainly lymphocytic infiltration of the interstitium and degenerative changes in the tubular epithelium of the kidney. The G-4260 strain of ANV was given orally to 1-day-old turkey poults, but no serological response was induced. Virus was not recovered from the kidneys and no histological lesions were produced in this organ. Monoclonal antibodies were produced which neutralized the infectivity of ANV. An antigen trap ELISA was developed using a monoclonal antibody and infected chicken kidney tissue cultures. However, this assay did not detect ANV in kidney samples taken directly from infected chickens, with the exception of one sample which was shown to contain the highest concentration of infectious virus.     

Development of a tissue-culture-based enzyme-immunoassay method for the quantitation of anti-vaccinia-neutralizing antibodies in human sera

Vaccination with vaccinia virus is carried out in order to induce protection against variola virus, the causative agent of smallpox. Serum titer of vaccinia virus-neutralizing antibodies is considered to be well-correlated with in vivo protection. Plaque reduction neutralization test (PRNT) is the gold standard for detecting and quantifying vaccinia virus-neutralizing antibodies in sera of vaccinees. However, PRNT is time and labor consuming, which does not allow large-scale screening needed for a population survey. A simplified, sensitive, standardized, reproducible and rapid method, neutralization tissue-culture enzyme immunoassay (NTC–EIA) was developed for quantitation of neutralizing antibodies against vaccinia virus. The assay consists of the following steps: neutralization of the virus with serially diluted sera, infection of cells in culture and measurement of residual virus replication using an enzyme immunoassay. The assay can be used for animal (rabbit) or human sera. Titer averages obtained using NTC–EIA were highly correlated (R² = 0.9994) to those obtained using PRNT. The assay is carried out in 96-well plates and takes only 2 days to complete. With the appropriate setup, it can be automated fully to allow screening of a large number of sera.     

Development of TaqMan real-time PCR assay for detection and quantitation of reticuloendotheliosis virus

A highly sensitive real-time PCR method was developed in this study for reticuloendotheliosis virus (REV) detection and quantitation. The real-time PCR method, with a minimum detection limit of 10 proviral DNA copies, was 100 times more sensitive than the conventional PCR. It was also shown to be highly specific, as no positive signals were detected for other common avian DNA viruses. The coefficients of variation of intra- and inter-assay reproducibility were both less than 2%. The chicken β-actin gene was co-amplified and used as the internal control to monitor the efficiency of DNA extraction and PCR amplification. Specific pathogen free chickens were infected with REV at different ages and the blood was detected with the real-time PCR method. High levels of proviral DNA were detected in the blood of REV-infected chickens during the experiment and chickens infected early had higher proviral loads from 2 weeks post-infection compared with late infected chickens. This study provides an excellent research and diagnostic tool that can be used for REV detection and quantitation.     

Standardization of a plaque assay for Lassa virus

The plaque reduction neutralization test (PRNT) has been used routinely in serological studies with such arenaviruses as Junin, Machupo, and Parana. However, difficulties have been encountered in using the PRNT for LCM virus, while conflicting views have been expressed about the reliability and efficacy of the test with Lassa virus. We have therefore investigated and evaluated the plaque assay for Lassa virus. In addition, the suitability of the PRNT for determining the potency of a serum and its efficacy in passive immunization for the treatment of Lassa fever was also investigated. The Lassa virus plaque assay satisfied the criteria proposed by Cooper [1961] for determining satisfactory plaque technique. Lassa virus plaques appear within 3 days of inoculating Vero cell cultures. By day 5, the plaques are clearly defined, discrete, and measure 1.5 to 2.0 mm. In the plaque reduction neutralization test, the use of native non-inactivated serum was required for a reliable and reproducible determination of serum antibody titer. The potency and suitability of a serum for Lassa fever serotherapy was determined by the use of a constant serum-varying virus (CS-VV) and/or a constant virus-varying serum (CV-VS) PRN technique.