IMMUNOLOGICAL TOLERANCE IN BONE MARROW-DERIVED LYMPHOCYTES: II. EFFECTS OF ALLOGENEIC CELL INTERACTIONS AND ENZYMATIC DIGESTION WITH TRYPSIN ON INACTIVATED HAPTEN-SPECIFIC PRECURSORS OF ANTIBODY-FORMING CELLS

doi:10.1084/jem.139.6.1446

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IMMUNOLOGICAL TOLERANCE IN BONE MARROW-DERIVED LYMPHOCYTES : II. EFFECTS OF ALLOGENEIC CELL INTERACTIONS AND ENZYMATIC DIGESTION WITH TRYPSIN ON INACTIVATED HAPTEN-SPECIFIC PRECURSORS OF ANTIBODY-FORMING CELLS

Toshiyuki Hamaoka ¹ and David H. Katz ¹

¹ From the Department of Pathology, Harvard Medical School, Boston, Massachusetts 02115

The studies presented here have focused on the important questionof reversibility of inactivation of DNP-specific B lymphocytesinduced by the DNP derivative of the copolymer of D-glutamicacid and D-lysine (D-GL). In so doing, we have analyzed thecapacity of a strong T-cell stimulus, such as that providedby the allogeneic effect, and of gentle enzymatic treatmentwith trypsin to alter, prevent, or reverse the tolerance inducedby DNP-D-GL. Under experimental conditions in which DNP-specificB lymphocytes were exposed first to the tolerogenic molecule,and rendered markedly unresponsive by such exposure either invitro or in vivo, subsequent exposure to an allogeneic effectfailed to appreciably reverse or alter the tolerant state. Thiscontrasts directly with the capacity of DNP-D-GL to serve asa stimulus for DNP-specific B lymphocytes when the criticalmoment of specific binding occurs subsequent to the developmentof an allogeneic effect. In another series of experiments, theeffects of enzymatic treatment with trypsin on the tolerantB-cell population were found to vary depending on the stageof tolerance at which such treatment was performed. Thus, whenexposure of cells to DNP-D-GL for a relatively short time invitro is carried out at low temperature (4°C), the developmentof tolerance can be interceded by immediate trypsinization.In contrast, cells exposed to DNP-D-GL for longer periods oftime and/or at 37°C were not reversed to responsivenessby trypsinization. These data were interpreted to indicate that:(a) the effect(s) of trypsin in reversing (or preventing) toleranceat the cellular level does not depend necessarily on the susceptibilityof the tolerogenic moiety to the action of the enzyme, and (b)the generation of the tolerance-inducing signal involves metaboliccellular processes that can be delayed somewhat by low temperatureleaving such cells relatively more susceptible to intercedentmanipulations such as trypsinization. Taken collectively, therefore,the evidence obtained in these studies reinforces the conceptof central tolerance in B cells induced by DNP-D-GL as reflectingsub- or intracellular inactivating events.

Submitted on January 7, 1974

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