Natural regulatory cells in murine bone marrow: inhibition of in vitro proliferative and cytotoxic responses to alloantigens.

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A lymphocyte-enriched fraction of murine bone marrow (BML), obtained by sucrose density fractionation, contains natural regulatory cells that can profoundly suppress the proliferative and cytotoxic response of syngeneic lymph node cells to irradiated alloantigens in a mixed lymphocyte culture (MLC). A close correlation exists between the inhibition of alloantigen-induced proliferation and the generation of cytotoxic effectors. The suppression of proliferation is dependent on the dose of BML added to the cultures but is not due to cell crowding, since red blood cells, thymocytes, and irradiated splenocytes, all syngeneic to the lymph node responders, do not inhibit proliferation to the degree observed with BML. The addition of BML to cultures does not cause the maximum proliferative response to change from the usual day 5 peak, indicating that there is no change in culture kinetics. The release of nonradioactive thymidine by BML cannot explain the suppression. The target of suppression is maximally affected during the first 24 hr of culture, since adding BML to MLC later than this resulted in negligible inhibition of proliferation. Thus, the natural regulatory cell-mediated suppression reflects inhibition of "early" events in the proliferative response to alloantigens.