We have tested the ability of structures on macrophage (M phi) membranes (M phi-MEM) and on several other types of cells with Fc receptors to affect the DNA synthetic response of concanavalin-A-stimulated T cells. Of the cells tested, only M phi-MEM have the capacity to relieve the suppression produced by supra-optimal doses of the mitogen. The M phi-MEM do not increase Con A responses by altering the stimulatory capacity of the Con A. These observations, analysed together with previous results, which have indicated that live intact M phi are required for the transfer of information between lymphocyte sets and that M phi-MEM preparations can act as competitive antagonists for this function, are interpreted as follows: some supraoptimal doses of Con A activate suppressor cells, which are responsible for limiting the DNA synthetic response to the mitogen; the M phi-MEM abrogate this suppression by absorbing the signal that activates the suppressor cell. Kinetic studies suggest that the M phi-MEM do not affect the activity of already activated suppressor cells. We also found that Con A usually activates two separately responding T-cell populations with different sensitivities to dose and to time of contact with mitogen and that the suppression of both populations can be relieved by M phi-MEM. These results support the notion that the overall immunological circuit is composed of multiple independently regulated mini-circuits, with M phi acting as transmission posts for intra- and perhaps also inter-circuit communication.