Location of neutralizing epitopes defined by monoclonal antibodies generated against the outer capsid polypeptide, VP1, of foot-and-mouth disease virus A12

The epitopes of six monoclonal antibodies generated against type A12 foot-and-mouth disease virus (FMDV) VP1 or its largest cyanogen bromide fragment (13 kd) were characterized. Five of these monoclonal antibodies neutralized viral infectivity. Solid-phase and competitive antigen binding assays using virion-derived antigens or a biosynthetic VP1 polypeptide identified two distinct neutralizing epitopes. One epitope was located between amino acid residues 145-168 of VP1 and the other between amino acids 169-179. The results indicate that antibodies reacting with two distinct areas of the VP1 polypeptide are capable of neutralizing FMD virus.     

A simple and rapid method for detection of serum IgM antibodies to the rubella virus hemagglutinin

Serum IgM antibodies directed against the rubella virus hemagglutinin can be detected without prior serum fractionation. In the first step of a newly developed method, chick erythrocytes were sensitized with a subhemagglutinating dose of rubella hemagglutinin. Next, the sensitized erythrocytes were mixed with patient serum, allowing specific antibodies to react with the fixed antigens. Finally, rabbit antibodies to human IgM were used to create bridges between IgM molecules on different blood cells. The visible result was an easily read hemagglutination with sera which contain specific rubella IgM antibodies. The procedure is very simple and rapid to perform. At least 20 sera can be examined in approximately 2 h. No sophisticated instruments are needed.We have tentatively called the new method rubella anti-IgM hemagglutination (HA). Rubella antiIgM HA was more sensitive than the standard density gradient centrifugation/hemagglutination inhibition technique, but the correlation between the methods was good. Non-specific inhibitors of hemagglutination or rheumatoid factors did not seem to interfere with the specificity of the new method, and competition for antigenic sites between antibodies from the IgG/IgA and IgM classes did not seem to represent a serious, practical problem.     

Maturation of immunoglobulin G avidity after rubella vaccination studied by an enzyme linked immunosorbent assay (Avidity-ELISA) and by haemolysis typing

Two tests were introduced recently for assessment of the avidity of rubella immunoglobulin antibodies. In the quantitative test—avidity—enzyme linked immunosorbent assay (ELISA)—IgG antibodies obtained from individuals shortly after primary infection with rubella virus are distinguished from those with past immunity by their antigen-elution characteristics. This method uses agents that disrupt hydrophobic bonds in proteins [Kamoun PP (1988): Denaturation of globular proteins by urea: Breakdown of hydrophobic bonds? Trends in Biological Sciences 13:424–425.]. In the semiquantitative, presumptive test—haemolysis typing—the lowavidity rubella-IgG antibodies are distinguished from the high-avidity antibodies by the quality of their haemolytic zones in a radial haemolysis test. In the present study, both tests were applied to sera taken before and after vaccination with two different strains (Cendehill or RA 27/3) of live attenuated rubella virus. It was found that after vaccination of previously nonimmune subjects, IgG synthesized during the first 2 months had a very low avidity; IgG avidity increased dramatically during the subsequent 4 months and less markedly between 6 and 12 months after vaccination. On the contrary, the initially high IgG avidity of previous immune vaccinees remained at an elevated level postvaccination. These results provide a basis for identification of recent primary rubella virus infections, or vaccination reactions, by the avidity of specific IgG and also for their separation from rubella reinfections.     

Preparation of anti-idiotypic antibody against avian influenza virus subtype H9

To generate monoclonal anti-idiotypic antibodies(mAb2)against avian influenza virus subtype H9(H9 AⅣ),BALB/c mice were immunized with purified chicken anti-H9-AⅣ IgG and the splenocytes of immunized mice werefused with myeloma cells NS-1.Hybridoma cells were screened by indirect enzyme-linked immunosorbent assayswith both chicken and rabbit anti-H9-AⅣ IgG as coating antigens.One hybridoma cell clone secreting monoclonalantibody against idiotypes shared by both chicken and rabbit anti-H9-AⅣ IgG was established.Experimentsdemonstrated the mAb2 was able to inhibit the binding of hemagglutinin to anti-H9-AⅣ IgG and to inducechickens to generate hemagglutination inhibition antibodies,indicating this anti-species-sharing-idiotypic antibodybore the internal image of hemagglutinin on avian influenza virus.Cellular & Molecular Immunology.2005;2(2):155-157.     

Primary investigation of 31 infants with suspected congenital rubella syndrome in Sudan

Between 2005 and 2006, clinical specimens were collected from 31 infants with suspected congenital rubella syndrome (CRS) who presented at six hospitals in Khartoum, Sudan. Eleven (35.5%) were laboratory confirmed as CRS cases by testing for anti-rubella IgM, IgG and viral genome. For the first time in Sudan, the rubella virus genome was directly detected in clinical specimens of six CRS cases and two viruses were isolated in cell culture. Phylogenetic analysis suggested that three genotypes of rubella virus (RV; 1E, 2B and 1G) were co-circulating in Sudan. The study introduced the methodology for CRS confirmation and surveillance in Sudan and provides preliminary data.     

In vivo expression of rubella antigens on human leucocytes: detection by flow cytometry

Flow cytometry has been used to detect in vivo expression of rubella antigens on human leucocytes. Sequential samples of peripheral blood were obtained from four volunteers with naturally acquired rubella and five persons immunised with RA27/3 rubella vaccine. Leucocytes were stained for rubella antigens using a pool of rubella monoclonal antibodies. Rubella antigens were detected on the leucocytes of all four volunteers with naturally acquired rubella between 1 and 13 days after onset of illness. Viral antigens were expressed more frequently on the monocyte (9-51%) than the lymphocyte (less than 1-4%) and granulocyte (less than 1-3%) populations. Among the vaccines, rubella antigens were detected on the leucocytes of four of the five volunteers between 5 and 12 days after immunisation. The expression of viral antigens was more transient and the proportion of cells exhibiting rubella-specific fluorescence considerably lower following vaccination (1-12%) than natural infection (9-51%). Our results demonstrate that flow cytometry provides a rapid and sensitive analytical technique for detecting viral antigens on leucocytes from infected persons. Leucocytes may play an important role in the pathogenesis of rubella infection.     

Molecular surveillance of rubella viruses in Taiwan from 2005 to 2011

Rubella has been listed as a mandatory notifiable disease in Taiwan since 1988. Because of high coverage rates with an effective vaccine, rubella cases have decreased dramatically in Taiwan since 1994. However, rubella outbreaks still occur due to imported transmission. Five large clusters were detected in Taiwan from 2007 to 2011. In 2007, one cluster was caused by rubella genotype 1E viruses that were imported from Vietnam, whereas another cluster was caused by genotype 2B viruses and was untraceable. In 2008, two clusters were caused by different lineages of genotype 1E viruses that were imported from Malaysia. In 2009, a cluster that was caused by genotype 2B viruses was associated with imported cases from Vietnam. The rubella viruses from 124 confirmed cases from 2005 to 2011 were characterized, and the data revealed that these viruses were distributed in the following four genotypes: 1E (n = 56), 1h (n = 1), 1j (n = 4), and 2B (n = 63). Of these viruses, 93 (75%) were associated with imported cases, and 43 of 56 genotype 1E viruses were associated with imported cases from China, Vietnam, Malaysia, and Indonesia. One genotype 1h virus was imported from Belarus, and three of four genotype 1j viruses were imported from the Philippines. Of 63 rubella genotype 2B viruses, 46 were imported from Vietnam, Thailand, Malaysia, China, Germany, and South Africa. Molecular surveillance allows for the differentiation of circulating rubella viruses and can be used to investigate transmission pathways, which are important to identify the interruption of endemic virus transmission. J. Med. Virol. 85:745–753, 2013. © 2013 Wiley Periodicals, Inc.     

Monoclonal antibodies directed against the envelope glycoproteins of La Crosse virus

Neutralizing monoclonal antibodies directed against the envelope glycoproteins of La Crosse virus (LACV) were prepared. Two antibodies immunoprecipitated the 120 kDa virus attachment protein for vertebrate cells, G1, while five immunoprecipitated the 35 kDa G2 protein, whose function is currently unknown. Two monoclonal antibodies were obtained that specifically precipitated both G1 and G2 from [35S]cysteine labeled LACV infected cell lysates. The G2 specific monoclonal antibodies had high neutralizing titers when assayed in mosquito cells but limited ability to neutralize virus in mammalian cells. The G1/G2 specific antibodies neutralized virus infectivity in both vertebrate and invertebrate cells at high titers. These results suggest that G2 is involved in the interaction of virus with mosquito cells and that G1 and G2 may share a common structural epitope relevant to their role as attachment proteins in vertebrate and mosquito cells. Monoclonal antibodies directed against G2 or G1/G2 have not previously been reported and should be useful tools for characterizing the biological functions of these molecules in the divergent micro-environments of vertebrate and invertebrate hosts.     

Characterization of murine complement receptor type 2 and its immunological cross-reactivity with type 1 receptor.

We have previously demonstrated that some mAbs prepared against mouse complement receptor type 1 (CR1) bind a 150,000 Mr protein in addition to the 190,000 Mr CR1 protein. We now identify the 150,000 Mr murine protein as complement receptor type 2 (CR2), since: (i) one of the monoclonal antibodies that bind this protein inhibits rosette formation between mouse B cells and C3d-bearing sheep erythrocytes; (ii) as is known for human CR2, this protein is present on B lymphocytes but not T lymphocytes; and (iii) this protein must have affinity for C3b, since it has weak factor I cofactor activity. In addition, this protein resembles the 145,000 Mr human CR2 molecule in size. Since four of the five mAbs that were produced by immunization with CR1 also bound CR2, and they bind to different CR1 epitopes, it seems that murine CR1 and CR2 share multiple epitopes. Injection of mice with one of the CR1-CR2 cross-reactive mAbs almost eliminated both CR1 and CR2 expression, but did not decrease B cell numbers or the expression of B cell IgM, Ia, or B220 antigens. In contrast, injection of mice with a non-cross-reactive anti-CR1 antibody only modulated CR1 expression. These antibodies should thus provide useful tools for the study of the in vivo roles of B cell complement receptors.     

Genomic characterization of a persistent rubella virus from a case of Fuch’ uveitis syndrome in a 73 year old man

BackgroundMany cases of Fuchs’ uveitis have been associated with persistent rubella virus infection. A 73-year-old male patient with typical Fuchs’ Uveitis Syndrome (FUS) first experienced heterochromia of the left eye at the age fourteen, when rubella was endemic in the US.ObjectivesThe purposes of this report are to describe the patient’s FUS clinical presentations and to characterize the virus detected in the vitreous fluid.Study designThe patient underwent a therapeutic pars plana vitrectomy in May 2013. A real-time RT-PCR assay for rubella virus was performed on the vitreous fluid by Focus Diagnostics. Additional real-time RT-PCR assays for rubella virus detection and RT-PCR assays for generation of templates for sequencing were performed at the Centers for Disease Control and Prevention (CDC).ResultsThe results from Focus Diagnostics were positive for rubella virus RNA. Real-time RT-PCR assays at CDC were also positive for rubella virus. A rubella virus sequence of 739 nucleotides was determined and phylogenetic analysis showed that the virus was the sole member of a new phylogenetic group when compared to reference virus sequences.ConclusionsWhile FUS remains a clinical diagnosis, findings in this case support the association between rubella virus and the disease. Phylogenetic analysis provided evidence that this rubella virus was likely a previously undetected genotype which is no longer circulating. Since the patient had rubella prior to 1955, this sequence is from the earliest rubella virus yet characterized.     

Practical considerations of the ability of monoclonal antibodies to detect antigenic differences between closely related variants

This report describes an investigation of the abilities of different immunoassays to detect differences in affinities between related antigens for particular monoclonal antibodies. Nine different monoclonal antibodies were used and 6 strains of influenza virus represented closely related antigens. Parameters defining assay sensitivity were estimated experimentally for each antibody in 4 different immunoassays. Predicted failures of particular assays to detect differences in antigen affinities, based on these parameters, were demonstrated. One assay method failed to detect heteroclitic activity of 1 antibody which was clearly evident in the other 3 assays. As well as supporting theoretical models of assay sensitivity derived in the preceding paper the experiments demonstrated a significant effect of antibody subclass.     

Evaluation of a rapid passive hemagglutination assay for anti-rubella antibody: comparison to hemagglutination inhibition and a vaccine challenge study

A rapid passive hemagglutination assay (Rubaquick) was developed that detects antibody to rubella virus in serum specimens. The test result is read visually after an incubation period of 15-30 minutes. When compared with a hemagglutination inhibition assay, the Rubaquick assay results obtained from 1,470 sera were greater than 99% specific, sensitive, and accurate. Studies of 179 paired serum specimens obtained before and 27 days after rubella vaccination showed that if antibody was detectable by the Rubaquick assay in the prevaccination specimens, the vaccine induced a secondary response consisting of increasing IgG antibody reactivity in the absence of a positive IgM response. In contrast to the positive prevaccination specimens, a negative prevaccination result was associated with IgM antibody in 98 of the 133 postvaccination specimens. Seroconversion was noted in all cases in which the prevaccination specimen was negative by the Rubaquick assay.     

抗MDV-1 VP22羧基端单克隆抗体的制备与免疫学特性鉴定

目的：制备抗血清Ⅰ型马立克氏病病毒（MDV-1）VP22的单克隆抗体（mAb），并鉴定其免疫学特性。方法：在原核系统中表达VP22羧基端区域（94～243aa），获得融合表达产物GST-VP22C。将该表达产物切胶免疫小鼠，利用杂交瘤技术制备抗MDV-1VP22C的mAb，并通过ELISA、间接免疫荧光（IFA）、Western blot鉴定其特性。结果：获得了2株可稳定分泌抗MDV-1VP22C的mAb的杂交瘤细胞，命名为3F7、4FA。IFA鉴定表明，两株mAb均能与感染MDV-1的成纤维细胞反应，其中，3F7mAb染色呈现MDV空斑，而4FAmAb呈现整个单层的细胞核荧光。ELISA和Westernblot分析表明，3F7能与杆状病毒表达的VP22反应，4FA不具备该特性。对3F7mAb进一步鉴定，确定了该mAb针对的具体位置在94～193aa处，是蛋白转导域的预测位置。结论：成功地制备了抗MDV-1VP22C的mAb，为深入研究VP22蛋白的转导功能提供了有用的试剂。     

The contribution of HLA class I antigens in immune status following two doses of rubella vaccination

The variability of humoral and cellular immune responses modulated by human leukocyte antigen (HLA) genes is a significant factor in the protective effect of rubella vaccines. We performed HLA class I typing in a group of 346 healthy schoolchildren and young adults who previously received two doses of measles-mumps-rubella-II vaccine. Rubella virus–specific humoral (serum antibody) immunity and cell-mediated immunity (lymphocyte proliferation) were assessed. Median values for antibody levels and stimulation indices (SI) were 38.63 IU/ml and 2.29 IU/ml, respectively. The alleles that provided suggestive, but not conclusive, evidence of HLA association with rubella seropositivity were HLA-B*2705 (median, 24.68 IU/ml; p = 0.160), B*4501 (median, 61.22 IU/ml; p = 0.098), Cw*0303 (median, 30.34 IU/ml; p = 0.102) and Cw*0704 (median, 26.58 IU/ml; p = 0.144). These alleles approach, but do not achieve, statistical significance. Of all the alleles analyzed, HLA-B*3503 (median SI, 3.00; p = 0.031) and HLA-Cw*1502 (median SI, 3.19; p = 0.035) were positively associated with lymphoproliferative responses to rubella virus antigens, whereas the HLA-B*3901 (SI, 1.34; p = 0.066) allele was negatively associated. This suggests that class I HLA alleles may have limited associations with humoral and cellular immune responses to rubella vaccine. These data may facilitate our understanding of immune response variation in a genetically outbred heterogeneous population.     

Antigenic features of foot-and-mouth disease virus serotype Asia1 as revealed by monoclonal antibodies and neutralization-escape mutants

Neutralizable antigenic sites/epitopes of serotype Asia1 foot-and-mouth disease virus (strain IND63/72) were identified using monoclonal antibodies (mabs) and their neutralization-escape mutants. Relative affinity/reactivity of the mabs for viral (both native and trypsin-cleaved) and subviral antigens in enzyme-linked immunosorbent assay (ELISA) showed dominance of trypsin-sensitive and conformation-dependent neutralizable antigenic sites. Characterization of neutralization escape mutants identified at least four independent trypsin-sensitive neutralizable antigenic sites on Asia1 FMD virus. One site was identified by mabs B3, 1A, 24, 2A, 40 and 63, second site by mabs 34 and 81, third site by mab 72 and fourth site by mab 89. The reaction profile of the mabs with selected field isolates in ELISA identified four different neutralization epitopes within the site B3/1A/24/2A/40/63.     

Clinical evaluation of a rubella passive hemagglutination test system.

A recently marketed passive hemagglutination (PHA) test (Rubacell, Abbott Laboratories) was compared to the hemagglutination inhibition (HI) test for the detection of antibody to rubella virus. The performance of the PHA system in determining immunity to rubella was evaluated by comparing the PHA results and HI results on 1, 086 randomly selected sera submitted for routine premarital and prenatal testing. Of the 1, 079 specimens assayable by both procedures, 1, 053 of the results (97.6%) were in agreement on initial testing. When the 26 initially discrepant specimens were retested for clarification, there was final agreement in 1, 067 of the specimens (98.9%). Twelve specimens were classified as persistently discrepant (five were not retested by PHA) and seven were unassayable by HI.Seven of the specimens with discrepant results were PHA positive and HI negative, and five were PHA negative and HI positive. Discussion of the two tests with respect to technical difficulty, cost, and controls is also included.     

The development of monoclonal antibodies to respiratory syncytial virus and their use in diagnosis by indirect immunofluorescence

Twelve clones of murine hybridoma cells secreting antibody specific for respiratory syncytial (RS) virus were classified into four groups on the basis of their pattern of staining of unfixed RS virus-infected HEp-2 cells in an indirect immunofluorescence test. Three of the groups reacted with virus antigens present on the membrane of the cells, whilst the fourth group failed to stain most live cells, suggesting specificity for an antigen expressed internally. Representative monoclonals from the membrane antigen staining groups immunoprecipitated the 86K glycoprotein (G), 50K plus 19K glycoprotein (F1,2) and a 23K non-glycosylated protein (VP23). A representative monoclonal from the fourth group that appeared to stain an internally expressed protein immunoprecipitated the virion 34K phospho-protein (P). All four monoclonals stained acetone-fixed tissue culture cells infected with either the Long strain of RS virus or with strains isolated in Newcastle during the 1965, 1972, and 1983 winter epidemics. The anti-fusion protein antibody stained acetone-fixed cells from all of 26 nasopharyngeal secretions from infants with RS virus infection. The anti-G glycoprotein antibody and the anti-VP23 antibody stained cells from secretions poorly or not at all, whilst the anti-P protein antibody stained cells in half the secretions tested but reacted with only a small proportion of cells in comparison with the anti-F or polyclonal antibodies. A pool of all four monoclonals produced more intense staining than the anti-F monoclonal alone and gave a more clearly defined staining reaction than the polyclonal antiserum used for routine diagnosis in over half the secretions. These results indicate that monoclonal antibodies will be of value in the diagnosis of RS virus by indirect immunofluorescence if care is taken in the selection of a suitable pool.     

Detection of rubella virus antigen by one-step time-resolved fluoroimmunoassay and by enzyme immunoassay

A one-step time-resolved fluoroimmunoassay (TR-FIA) and a conventional two-step enzyme immunoassay (EIA) for the detection of rubella virus antigen were developed. Two noncompetitive mouse monoclonal antibodies reactive with epitopes on the E1 polypeptide of rubella virus served as immunoreagents. One of the monoclones (7A6) was used for coating the solid phase, and the other (2C3) was labeled with either Europium chelate or with horseradish peroxidase. For TR-FIA, the specimen was incubated simultaneously with the label at 4 degrees C overnight. EIA required an overnight incubation with the specimen and after washing another 1 hr of incubation at 37 degrees C with the conjugate. The sensitivity of TR-FIA was 10 pg in an assay volume of 100 microliters, and the sensitivity of EIA was between 50 and 100 pg. Antigens could be detected by TR-FIA in supernatant of cultures of Vero cells 48 hr after inoculation with approximately 1 TCID50, while cytopathogenic effect (CPE) at that time was detected only in cultures inoculated with 10(5) TCID50 or more. Virus mixed with human amniotic fluid containing antirubella-specific IgG was detectable after an incubation at 37 degrees C for 5 days. The assays may find applications in prenatal diagnosis of intrauterine rubella infection, in early identification of viral antigens in cell culture and in monitoring production, concentration, and purification of rubella antigen for antibody assays.     

Characterization of monoclonal antibodies to Marburg virus nucleoprotein (NP) that can be used for NP-capture enzyme-linked immunosorbent assay

After the first documented outbreak of Marburg hemorrhagic fever identified in Europe in 1967, several sporadic cases and an outbreak of Marburg hemorrhagic fever have been reported in Africa. In order to establish a diagnostic system for Marburg hemorrhagic fever by the detection of Marburg virus nucleoprotein, monoclonal antibodies to the recombinant nucleoprotein were produced. Two clones of monoclonal antibodies, MAb2A7 and MAb2H6, were efficacious in the antigen-capture enzyme-linked immunosorbent assay (ELISA). At least 40 ng/ml of the recombinant nucleoprotein of Marburg virus was detected by the antigen-capture ELISA format. The epitope of the monoclonal antibody (MAb2A7) was located in the carboxy-terminus of nucleoprotein from amino acid position 634 to 647, while that of the MAb2H6 was located on the extreme region of the carboxy-terminus of the Marburg virus nucleoprotein (amino acid position 643-695). These monoclonal antibodies strongly interacted with the conformational epitopes on the carboxy-terminus of the nucleoprotein. Furthermore, these two monoclonal antibodies were reacted with the authentic Marburg virus antigens by indirect immunofluorescence assay. These data suggest that the Marburg virus nucleoprotein-capture ELISA system using the monoclonal antibodies is a promising technique for rapid diagnosis of Marburg hemorrhagic fever.     

Inhibition of virus-induced hemolysis with monoclonal antibodies to different antigenic areas on the hemagglutinin molecule of A/seal/Massachusetts/1/80 (H7N7) influenza virus

A/seal/Massachusetts/1/80 (H7N7) influenza virus caused maximal hemolysis at pH 5.9 Monoclonal antibodies to each of the four nonoverlapping antigenic areas on the hemagglutinin molecule of the virus inhibited the hemolysis whereas those belonging to two of the groups did not inhibit hemagglutination of the virus. Hemolysis also occurred when the virus was incubated at pH 5.9 prior to addition of erythrocytes. Such hemolysis caused by acid-treated virus was inhibited with the antibodies as well. At pH 5.9, hemagglutination of neither intact virus nor hemagglutinin rosettes was inhibited with any of the monoclonal antibodies, indicating conformational change in the hemagglutinin molecule, at this pH. On the other hand, hemagglutination-inhibition was observed when the antigens were incubated with the monoclonal antibodies at pH 7.0 and then the pH was later shifted to 5.9, suggesting that antibody-binding interferes with the conformational change in the hemagglutinin molecule at pH 5.9. The present findings indicate that antibodies to the hemagglutinin of influenza virus can inhibit virus-induced hemolysis by blocking conformational change in the hemagglutinin molecule and blocking later step of fusion than the conformational change, in addition to blocking attachment of virus to the receptor of erythrocytes.