Antiproliferative monoclonal antibodies: detection and initial characterization.

Two monoclonal antibodies (MAB) are described which inhibit in vitro cellular proliferation in the absence of complement or effector cells. These MAB were produced by hybridomas made from mice immunized against human B lymphoma cells. The MAB were detected by using a colorimetric assay that quantifies proliferation based on the conversion of a yellow tetrazolium salt to a purple formazan product, a reaction that occurs only in metabolically active cells with intact mitochondrial enzymes. A human B lymphoblastoid cell was used as the screening target. RBC4 is an IgM MAB that modulates and immunoprecipitates the transferrin receptor. RBG5 is an IgG1 that binds to a nonmodulating cell surface determinant different from the transferrin receptor. Both MAB are active at low concentrations (RBC4, 0.5 microgram/ml and RBG5, 0.01 microgram/ml). Immunofluorescence staining of cell lines by RBC4 and RBG5 shows little correlation with inhibition by the antibodies. They differentially inhibit the proliferation of a panel of T, B, and myeloid cell lines. Both antibodies inhibit the proliferation of alloantigen or mitogen-activated human peripheral blood lymphocytes (PBL). Unstimulated PBL are not affected by either MAB. The RB MAB each cause different morphologic changes of target cells. Whereas RBC4-inhibited cells exhibit nonspecific changes, RBG5 causes a progressive increase in the size and nuclear number of a subset of inhibited cells.