| Abstract: | A mouse hybridoma selected and cloned for anti-TNP specificity produced three distinct monoclonal antibody species that were separated on protein A-Sepharose by stepwise acid elution. The IgG1 kappa product of the parental myeloma was eluted at pH 6.0. An IgG2a kappa bivalent anti-TNP antibody was eluted at pH 4.5, whereas elution at pH 5.0 yielded a hybrid IgG1-2a kappa monovalent anti-TNP antibody. The IgG2a molecules agglutinated TNP-conjugated sheep erythrocytes (TNP-ES) and lysed TNP-ES in the presence of normal human serum (NHS). Hybrid IgG1-2a antibody was also capable of lysing the cells in NHS, although it did not agglutinate TNP-ES. A threshold in monovalent antibody input was necessary for the lysis of TNP-ES, indicating a requirement for a minimal density of bound monovalent IgG to trigger complement activation. Lysis occurred in NHS-VBS++ but not in NHS-MgEGTA, and it was associated with a dose-dependent consumption of C1, C4, and C2 hemolytic activities. Quantitation of the antibody bound to TNP-ES when using radiolabeled rabbit anti-mouse Fab antibody demonstrated that for similar inputs, 5.4 times as much bivalent as monovalent antibody bound to TNP-ES. When similar amounts of antibody were effectively bound to TNP-ES, monovalent hybrid IgG1-2a was five times less efficient than bivalent IgG2a to yield 50% cell lysis in the presence of NHS. These results indicate that neither bivalent binding nor the presence of two identical heavy chains are necessary requirements for antibody-dependent activation of the classical complement pathway. |
