H-2 expression by lymphoid cells of different mouse strains: quantitative interaction of H-2 with monoclonal antibodies and their Fab fragments

Abstract

Monoclonal antibodies (H100-30/3 and 11-4.1) to H-2k were used to study H-2 antigen expression and characteristics of the H-2 antigen-antibody interaction at the cell surface. Studies with radiolabelled F(ab')2 and Fab' fragments of 11-4.1 antibody confirmed that monoclonal IgG binding to cells is directly proportional to the number of H-2 sites and shows a high proportion of monovalent binding over a wide range of concentrations. Scatchard plots showed no difference in the binding affinity constant (Ka) of a given monoclonal antibody on lymphoblasts from various H-2k F1 and congenic strains, but only in the number of antigenic sites per cell. F1 (k x d) lymphoblasts show 1 x 10(5) H-2k sites/cell, about 50% of the expression in homozygotes. Dk expression in C3H.OH is 1.4 x 10(4) sites/cell. While normal cells appear to have a constant amount of H-2 (2-3 x 10(5) sites/cell), BW thymoma cells show unstable H-2 expression, having an average of five times fewer H-2 sites per cell when grown in vitro as compared to in vivo growth. Another BW cell surface marker, Thy-1.1, does not fluctuate in parallel with H-2. The 30/3 and 11-4.1 antibodies bind to topologically distinct sites on H-2Kk. The binding of these antibodies can be perturbed differentially: paraformaldehyde fixation of cells abolishes binding of 11-4.1 antibody but not of 30/3 antibody; increasing temperature increases the Ka of 30/3 antibody binding but decreases the Ka of 11-4.1 antibody binding to cells.