Direct tolerance induction in mature B lymphocytes may resemble clonal anergy phenomenon.

Several mechanisms have been postulated for direct induction of B-cell tolerance in mature B cells, such as the Bretscher and Cohn [5] hypothesis which states that an antigenic signal to B cells without the 'second signal' provided by T cells or lymphokines produces unresponsiveness. A second explanation is that tolerogens which cross-link immunoglobulin and Fc receptors abort the biochemical activation of the B cell via the phosphatidyl inositol pathway. Results of our studies are not consistent with either of these hypotheses. We speculated that DNP-MGG induces immunoglobulin receptor capping and internalization in mature B cells, but a suppressive signal is given to the B cell when DNP-MGG is present at the time of antigen receptor reexpression in a fashion similar to clonal anergy. The studies reported here test this hypothesis as a possible additional mechanism of direct B-cell tolerance. When pure DNP-specific B cells were incubated for 6 h with DNP-MGG in the presence of lymphokine-rich EL-4 supernatant, an immune response was induced; but 48 h preincubation with DNP-MGG in the presence of lymphokines induced tolerance. If B-cell cultures were preincubated with DNP-MGG for 6 h followed by a 24-hour incubation without conjugate and DNP-MGG was then added for the third preincubation period of 18 h (at a time when receptors are being reexpressed), tolerance was induced. Substitution of DNP-Ficoll antigen for DNP-MGG in either the first or third time period did not result in tolerance induction but substituting DNP-KLH during either of these two periods did result in tolerance.