dinitrobenzenes and Leukemia

Topics: Animals; Antibodies, Monoclonal; Basophils; Binding, Competitive; Chronic Disease; Dinitrobenzenes; Histamine Release; Humans; Immunoglobulin E; Kinetics; Leukemia; Mast Cells; Mice; Rats; Receptors, IgE; Receptors, Immunologic

Antigen-antibody systems provide the flexibility of varying the kinetics and affinity of molecular interaction and studying the resulting effect on adhesion. In a parallel-plate flow chamber, we measured the extent and rate of adhesion of rat basophilic leukemia cells preincubated with anti-dinitrophenyl IgE clones SPE-7 or H1 26. 82 to dinitrophenyl-coated polyacrylamide gel substrates in a linear shear field. Both of these IgEs bind dinitrophenyl, but H1 26.82 has a 10-fold greater on rate and a 30-fold greater affinity. Adhesion was found to be binary; cells either arrested irreversibly or continued at their unencumbered hydrodynamic velocity. Under identical conditions, more adhesion was seen with the higher affinity (higher on rate) IgE clone. At some shear rates, adhesion was robust with H1 26.82, but negligible with SPE-7. Reduction in receptor number or ligand density reduced the maximum level of adhesion seen at any shear rate, but did not decrease the shear rate at which adhesion was first observed. The spatial pattern of adhesion for both IgE clones is well represented by the first-order kinetic rate constant kad, and we have determined how kad depends on ligand and receptor densities and shear rate. The rate constant kad found with H1 26.82 was approximately fivefold greater than with SPE-7. The dependence of kad on site density and shear rate for SPE-7 is complex: kad increases linearly with antigen site density at low to moderate shear rates, but is insensitive to site density at high shear. kad increases with shear rate at low site density but decreases with shear at high site density. With H1 26.82, the functional dependence of kad with shear rate was similar. Although these data are consistent with the hypothesis that we have sampled both transport and reaction-limited adhesion regimes, they point out deficiencies in current theories describing cell attachment under flow.

Topics: Animals; Antigen-Antibody Reactions; Antigens; Basophils; Binding Sites; Cell Adhesion; Dinitrobenzenes; Flow Cytometry; Gels; Immunoglobulin E; Kinetics; Leukemia; Protein Binding; Rats; Receptors, Cell Surface

Rat basophilic leukemia (RBL) cells have receptors for immunoglobulin E (IgE). We previously showed that unlike some other ligands, the binding of monomeric rat or mouse IgE to RBL cells does not induce endocytosis. However, aggregation of the cell-bound, monomeric mouse IgE anti-dinitrophenyl (DNP) with DNP-protein conjugates leads to endocytosis of the aggregated mouse IgE and to the co-endocytosis of some unaggregated monomeric rat IgE. In this study we analyzed and compared the fate of co-endocytosed and endocytosed IgE. We found that co-endocytosed rat IgE recycled back to the cell surface within 3 to 4 hr. In contrast, endocytosed, immunochemically cross-linked, receptor-bound mouse IgE anti-DNP was partially degraded and was released into the medium, with no observable recycling of receptors, by 3 hr. However, addition of the hapten, DNP-lysine, resulted in rapid recycling (t1/2 10 min) of the endocytosed receptor-bound IgE to the plasma membrane and blocked additional endocytosis. Recycling of the endocytosed mouse IgE was more pronounced when the hapten was added to cells within 20 min of the initiation of endocytosis. When the hapten was added to the cells at later times (60 to 180 min), progressively less IgE recycled to the surface. This may reflect shuttling of the internalized IgE from a 'prelysosomal' to a 'lysosomal' compartment. Thus we provide evidence for recycling of monomeric IgE receptor complexes, sorting between cross-linked and non-cross-linked IgE receptor complexes, the freeing of receptor-bound monomeric IgE from the endocytosed immune-complexed IgE, and the apparent dependence of the recycling efficiency upon intracellular localization.

Topics: Animals; Antigen-Antibody Complex; Basophils; Cell Line; Cross-Linking Reagents; Dinitrobenzenes; Dinitrophenols; Endocytosis; Immunoglobulin E; Leukemia; Rats; Receptors, Antigen, B-Cell; Receptors, Fc; Receptors, IgE; Receptors, Immunologic; Serum Albumin

Rat basophilic leukemia cells (RBL-2H3) have receptors for immunoglobulin E (IgE) and immunoglobulin G (IgG). These receptors for IgE mediate the endocytosis of chemically or immunochemically cross-linked IgE but not monomeric IgE. However, unoccupied receptors were endocytosed with cross-linked IgE. To further assess the degree and specificity of the observed coendocytosis, we exposed cells carrying monomeric rat IgE and monomeric mouse IgE anti-DNP to a DNP-protein conjugate. We found that up to 30% of the surface-bound monomeric rat IgE redistributed at 0 to 4 degrees C and was then internalized at 37 degrees C with the immunochemically cross-linked mouse IgE. To assess the specificity of the coendocytosis, we exposed cells carrying monomeric rat IgE to immunochemically cross-linked mouse IgG. We found that the binding, patching, and endocytosis of cross-linked mouse IgG had no effect on the monomerically bound rat IgE. The rate of coendocytosis was the same as the rate of endocytosis (t 1/2 3 to 5 min). The extent of coendocytosis depended on the extent of endocytosis but was relatively insensitive to changes in the ratio between mouse and rat IgE over a broad range. These results indicate that some of the receptors for IgE are associated in a specific fashion.

Topics: Animals; Basophils; Binding Sites, Antibody; Cross-Linking Reagents; Dinitrobenzenes; Dinitrophenols; Endocytosis; Fluorescent Antibody Technique; Immunoglobulin E; Leukemia; Macromolecular Substances; Mice; Rats; Receptors, Fc; Receptors, IgE; Serum Albumin

High frequency of hybridoma lines secreting large amounts of reaginic anti-DNP antibodies were generated by the fusion of splenic lymphocytes enriched by adoptive transfer of immune cells and the NSI plasmacytoma cell line. The murine IgE molecule binds DNP with high affinity and was specifically purified by immunoabsorption. The 190,000 dalton molecule is composed of a lambda-light chain and an epsilon-heavy chain of an apparent m.w. of about 90,000. Absorption studies with anti-class-specific antisera suggest that some of the hybrid clones secrete also a mixed molecule consisting of lambda- and kappa-light chains in addition to the epsilon-heavy chain. The monoclonal reaginic antibody binds to mast cells or rat basophilic leukemia cells and, upon binding of DNP-protein, triggers an anaphylactic reaction.

Topics: Animals; Antibody Formation; Antibody Specificity; Antibody-Producing Cells; Basophils; Binding Sites, Antibody; Cell Fusion; Dinitrobenzenes; Female; Hemocyanins; Hybrid Cells; Immune Sera; Immunization, Passive; Immunoglobulin E; Leukemia; Lymphocytes; Male; Mice; Mice, Inbred C57BL; Nitrobenzenes; Rats; Reagins

Topics: Antigens, Neoplasm; Dinitrobenzenes; Epitopes; Humans; Leukemia; Leukocytes; Molecular Weight; Nitrobenzenes; Protein Conformation; Serum Albumin, Bovine; Surface Properties