Analysis of the domain specificity of various murine anti-human IgM monoclonal antibodies differing in human B lymphocyte signaling activity.

The domain binding specificity of 19 murine anti-human IgM monoclonal antibodies (MoAbs) that have shown considerable heterogeneity in the transduction of stimulatory and inhibitory signals to B lymphocytes was evaluated by competition radioimmunoassays. Through the use of: (i) enzymatic fragments of IgM which each encompass more than a single CH domain, i.e. Fc5 mu and F(ab')2 mu, (ii) isolated single domains, C mu 2, C mu 3, and C mu 4, and (iii) mu heavy chain disease proteins, nine anti-IgM MoAbs were found to have C mu 1 domain specificity, five to have C mu 2 specificity, and five others to have C mu 4 specificity. Ineffective binding to isolated mu chain demonstrated that C mu 1-specific MoAbs were directed to epitopes which require light chain for expression. The lack of binding of the C mu 4-specific MoAbs to CNBr cleavage fragments of Fc5 mu suggest that the determinants recognized by these MoAbs may also be conformational in nature. Cross-inhibition analyses were used to determine the number of unique epitopes recognized by the anti-IgM MoAbs. Results from these experiments showed that: (i) eight of the nine MoAbs specific for C mu 1 likely bind to a single epitope, or very proximate epitopes, (ii) the five C mu 2-specific MoAbs recognize at least three distinct epitopes, and (iii) the five C mu 4-specific MoAbs each recognize a separate determinant. A comparison of the known B cell activating properties of these MoAbs with their specificity for the various segments of the IgM molecule indicate that mitogenicity cannot be attributed to selective binding to any one domain.