Proteins of purified rubella virus were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, transferred to nitrocellulose, and immunoblotted with human sera and immunoglobulin class heavychain-specific peroxidase conjugates. The levels of rubella antibodies in these sera were predetermined by the radial hemolysis test, the density gradient centrifugation method for immunoglobulin M (IgM) antibodies, and IgG-, IgM-, and IgA-specific enzyme immunoassays. In immunoblotting, rubella-specific IgG antibodies reacted with both envelope glycoproteins (El and E2) and the capsid protein (C). In contrast, rubella IgM antibodies reacted predominantly with El, whereas the specific reactivity of IgA antibodies was directed mainly to the capsid protein. Purified IgM rheumatoid factor added to IgG-positive, IgM-negative serum did not give false-positive reactivity in the immunoblotting test as it did in solid-phase enzyme immunoassays. The immunoglobulin class-specific reactivities with the different viral proteins are expected to have diagnostic applications.
An easy-to-perform fluorometric enzyme immunocapture assay (FEIA) was developed by Labsystems, Helsinki, Finland, to detect toxoplasma-specific immunoglobulin M (IgM) in dried blood spots. Assay materials were distributed to two sites that have programs in place designed to identify infants born with congenital toxoplasma infection: the Statens Serum Institut, Copenhagen, Denmark, and the New England Regional Newborn Screening Program, Boston, Mass. Each site tested over 700 dried blood samples from healthy newborns to define a cutoff at the 99.5 percentile (5 enzyme immunounits for Copenhagen and 4 enzyme immunounits for Boston). Each site then applied its own cutoff to interpret results for dried blood spots prepared from either adults with serology suggestive of acute infection (Copenhagen) or infants determined to be congenitally infected on the basis of serological criteria (Boston). In Copenhagen, 35 of 38 adult samples were positive by FEIA; the remaining 3 were also negative by immunosorbent agglutination assay for IgM and were either positive to a small degree or borderline positive for IgA. These samples thus may not represent acute infection. In Boston, of 26 congenitally infected infants, 22 were positive by FEIA. The four infant specimens not positive by FEIA were either negative or borderline positive by the standard Boston assay. These results demonstrate that the IgM FEIA is a potential alternative to other filter paper assays for toxoplasmaspecific IgM currently in use for newborns.
The envelope glycoproteins El and E2 of rubella virus were abundantly expressed in Spodoptera frugiperda Sf9 insect cells by using a baculovirus expression vector. The recombinant protein products were purified by immunoaffinity chromatography and characterized by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, immunoblotting, and enzyme immunoassay (EIA). The purified recombinant antigen consisted of the envelope polypeptides, corresponding to the viral El and E2 proteins, and a polyprotein precursor (molecular mass, 90 to 95 kDa). The antigen was reactive with human convalescent-phase sera in immunoblot analysis, and the reactivity correlated well (r = 0.861) with that of a whole-virus antigen when tested by EIA by using a total of 106 rubella virus immunoglobulin G-positive and-negative serum specimens. When the sera from patients with recent rubella virus infection were tested with the recombinant glycoproteins by EIA, the correlation was not as close (r = 0.690). However, all of the 26 serum specimens were reactive with the recombinant antigen. The results demonstrate that these bioengineered antigens have a potential for use in routine diagnostic assays of rubella virus immunity and recent infection.
Antigenicity of rubella virus E1 polypeptide was analyzed using synthetic peptides with predicted amino acid sequences. Overlapping solid-phase bound peptides were used to define antibody binding domains and a panel of free peptides to study T-cell responsiveness. Several antibody-binding areas including those earlier described to contain major neutralizing epitopes were recognized by human sera positive for rubella antibodies. T-cell lines specific for rubella virus were established from 14 rubella immune subjects. All cell lines responded to rubella virion-derived antigen but only eight (57%) responded to one or more of the synthetic peptides. Individual patterns of peptide recognition were found but peptide 8 representing amino acids 402-422 was most often stimulatory to T-cells lines, either alone (3 subjects) or in combination with peptide 3 (amino acids 245-269) or 3 and 4 (amino acids 269-287). The response was HLA restricted but no single DR specificity for this restriction was identified.
In the Toxoplasma gondii immunoglobulin M (IgM) capture fluorometric enzyme immunoassay used as a model, nonspecific responses due to the binding of human IgM to horseradish peroxidase (HRP) conjugates were observed despite the removal of the Fc portion of the immunoglobulin. This interaction may be mediated through the binding of human IgM to the HRP moiety of the conjugate. Addition of polymerized HRP into the reaction mixture reduced nonspecific signals in the majority of low false-positive serum reactions. Other plausible sites of interaction are conserved epitopes of mouse immunoglobulins presenting antigenic similarities with the allotopes of other species. Fragmentation of mouse antimicrobial IgG to Fab′ and selection of proper conjugation procedure improved assay specificity.
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