THE DNA-BINDING PROTEIN PUL57 OF HUMAN CYTOMEGALOVIRUS IS A MAJOR TARGET ANTIGEN FOR THE IMMUNOGLOBULIN-M ANTIBODY-RESPONSE DURING ACUTE INFECTION

A small polypeptide from pUL57 of human cytomegalovirus was identified as a major target for the immunoglobulin M antibody response. This antigen seems to be superior to antigenic fragments from pp150 and p52 in the identification of sera from acutely infected patients. It may therefore represent an essential antigen for recombinant immunoglobulin M antibody tests for human cytomegalovirus

EARLY SERODIAGNOSIS OF ACUTE HUMAN CYTOMEGALOVIRUS-INFECTION BY ENZYME-LINKED-IMMUNOSORBENT-ASSAY USING RECOMBINANT ANTIGENS

DNA fragments from eight different reading frames of human cytomegalovirus (HCMV) were generated by PCR and subsequently cloned and expressed in Escherichia coli in fusion with glutathione S-transferase. The recombinant viral antigens were evaluated in immunoblot analyses. The most reactive antigens were purified and further evaluated in ELISAs. For this, sera from healthy blood donors and immunocompetent individuals with acute HCMV infection, and follow-up sera from transplant recipients with acute primary HCMV infection were used. The results of our experiments indicate that only three particular recombinant polypeptides from two viral proteins are necessary for serodiagnosis. While a fragment covering amino acids (aa) 495 to 691 of pp150 (150/1) was the most suitable antigen for the identification of infected individuals in general, immunoglobulin M antibodies against the C-terminal parts of pp150 (aa 862 to 1048; 150/7) and p52 (aa 297 to 433; 52/3) proved to be excellent serological markers to monitor acute HCMV infection. The selected recombinant antigens enable the improvement of serodiagnosis of HCMV-related diseases, especially during the early stages of infection

IgM-specific serodiagnosis of acute human cytomegalovirus infection using recombinant autologous fusion proteins

Portions of three human cytomegalovirus (HCMV) polypeptides, which were shown previously to be highly reactive with patient sera, were expressed in Escherichia coli as autologous fusion proteins. Purified recombinant polypeptides were used as antigens in enzyme linked immunosorbent assay (ELISA) and compared against assays which use natural viral antigen from cell culture for their ability to improve IgM-specific serology of acute HCMV-infection. A fusion protein (CM2) which contained two copies of the C-terminal portion of pUL44 (p52, aa 297-433) and one copy of a highly reactive fragment of the major DNA-binding protein pUL57 (aa 545-601) proved to be superior in sensitivity and specificity compared to assays which use culture derived antigen, A construct expressing one copy of the fragments from pUL44 and pUL57 in fusion with the 54 amino terminal residues of pUL32 (pp150, aa 994-1048) did not lead to an improved sensitivity compared to CM2. Adversely, this polypeptide reacted with a number of sera from asymptomatic blood donors infected latently with HCMV indicating low specificity of this antigen for the detection of acute infection. Concordant results were obtained with an antigen that combined only the C-terminal portions of pUL44 and pUL32 (CM3). ELISA experiments with sequential sera from renal transplant recipients demonstrated that detection of IgM-antibodies using CM2 as antigen correlated closely with acute infection, whereas high levels of IgM-antibodies against CM1 and CM3 persisted for a month following acute HCMV-infection. These results indicate that the application of a single autologous fusion protein like CM2 as antigen for recombinant ELISAs can improve significantly IgM-serodiagnosis of acute HCMV infection

A modified hybridoma technique for production of monoclonal antibodies having desired isotypes

In the present study, we describe a modified hybridoma technique for production of monoclonal antibodies (mAbs) having a desired isotype. Mice were immunized with the antigen of interest. After having reached a high antibody titer, cells expressing IgM or IgG molecules were isolated from spleen cells of the immunized mice using a Magnetic Cell Sorting System. The isolated cells were fused with myeloma cells using the conventional fusion protocol. With the isolated IgM+ spleen cells, more than 75% (85 ± 7%; means ± SD) were IgM producing cells and a large number of IgM mAbs specific to the protein of interest were obtained. With the isolated IgG+ spleen cells, 41 ± 40% of the generated hybridomas produced IgG antibody and no IgM producing hybridoma was generated. A large number of IgG mAbs specific to the protein of interest could be produced. The results indicate that the generated hybridomas produce corresponding antibody isotypes as expressed on the surface of their starting cells. The technique that we have developed will be very useful for production of desired mAbs having a specific isotype