Virus, strain, and epitope specificities of neutralizing bovine monoclonal antibodies to bovine herpesvirus 1 glycoproteins gB, gC, and gD, with sequence and molecular model analysis.

Three bovine monoclonal antibodies (BomAb) raised to bovine herpesvirus (BoHV) 1.1 and specific for the viral glycoproteins gB, gC, and gD were tested for reactivity to two isolates of BoHV-1.1, one of BoHV-1.2, and two of BoHV-5 in virus neutralization and indirect fluorescent antibody assays. They were also tested with other herpesviruses infecting cattle and other mammalian alphaherpesviruses, and found negative or of negligible reactivity. Their BoHV-1.1 epitope specificity was examined using competitive ELISA with peroxidase-labeled murine monoclonal antibodies (MumAb) that had been previously characterized. To explain the incongruities observed, the amino acid sequences of the epitopes and adjacent regions of BoHV-1.1, 1.2, and 5 were compared, and molecular modeling was performed using human herpesvirus 1 glycoprotein crystals as templates. The anti-gB BomAb reacted strongly with BoHV-1.1 and BoHV-1.2, and poorly or not at all with BoHV-5. It competed with a MumAb specific for a BoHV-1.1 gB epitope previously shown to only partially cross-react between BoHV-1 and BoHV-5. BoHV-5 gB has nearly identical sequence with BoHV-1.1 in the epitope region, but modeling suggested the lack of cross-reactivity of the MumAb was due to masking of the epitope in BoHV-5 by an adjacent region, which has significant sequence differences between BoHV-1.1 and BoHV-5. The BomAb reactivity could also be explained by masking, or by reactivity with the adjacent region. The anti-gC BomAb reacted strongly with one isolate of BoHV-1.1 and BoHV-1.2, less well with a heterologous isolate of BoHV-1.1, and poorly or not at all with BoHV-5. It did not compete with any of the anti-gC MumAb tested, but a target domain was suggested by BoHV-1.1, 1.2, and 5 sequence divergence. The anti-gD BomAb reacted strongly with all BoHV-1.1, 1.2, and 5 isolates tested. However, it competed with two MumAb previously shown to not cross-react between BoHV-1.1 and BoHV-5. Sequence analysis and modeling suggested the cross-reactivity of the anti-gD BomAb was due to it reacting with an epitope-adjacent region or regions conserved between BoHV-1.1 and BoHV-5, but not with other alphaherpesviruses. The results suggest the usefulness of combining in vitro biological data with sequence or structure modeling data to investigate important epitopes involved in immunity to infectious agents.

Generation by self re-fusion of bovine³ × murine² heterohybridomas secreting virus-neutralizing bovine monoclonal antibodies to bovine herpesvirus 1 glycoproteins gB, gC, and gD.

Seventy-eight heterohybridomas (HH) stably secreting bovine monoclonal antibodies (BomAb) to Bovine herpesvirus 1 (BHV1) were produced by fusing lymph node cells from a BHV1 hyperimmunized calf with 3 types of non-secreting fusion partners. Seven were generated through fusion with the murine × murine (murine(2)) hybridoma SP2/0, 3 through fusion with bovine-murine(2) HH previously generated using cells from the same calf, and 68 through fusion with bovine(2)-murine(2) HH previously generated by sequential fusions using cells from the same calf. The chromosome number of example HH increased with increasing numbers of input fusions. A variety of indirect fluorescent antibody assay patterns was observed using the BomAb, suggesting diverse antigen specificity. Three bovine(3)-murine(2) HH secreted IgG1 BomAb neutralizing BHV1 without complement, and were chosen for further characterization. SDS-PAGE of detergent-solubilized BHV1 proteins bound to the 3 neutralizing BomAb demonstrated their individual specificities for BHV1 envelope glycoproteins gB, gC, and gD, the major neutralization targets for BHV1. The 3 HH stably secreted the BomAb in culture for over one year, and pilot-scale production of the BomAb was accomplished by in vivo and in vitro methods. A cocktail of the 3 BomAb was administered intravenously (i.v.) to a 6-month-old calf and its serum neutralization activity decreased with a half-life consistent with non-immune clearance, suggesting that BomAb may be useful for passive immune treatment of disease in cattle. Rabbits were passively protected by i.v. injection with each of the anti-gB and anti-gD BomAb when challenged i.v. with BHV1 24h later. Self re-fusion was shown to be advantageous for efficiently producing HH stably secreting host monoclonal antibodies. The BomAb described should prove useful in studies of the host immune response to BHV1, as reagents, and as sources of bovine immunoglobulin sequences.