Oscillation of antibody production and regulatory T cells in response to antigenic stimulation

Abstract

Priming with the T-dependent antigen trinitrophenylated horse red blood cells led to an oscillatory response of plaque-forming cells (PFC) with peaks of response after 4, 8, 12 and 16 days. Limiting dilution (LD) analysis of regulatory T cells indicated that the response is partly due to activation of helper T cells (T_h), but mainly is the result of release from suppression by activation of a third regulatory T cell (T₃) population (Zöller, H. and Andrighetto, G., Immunology 1985. 55: 703). Priming resulted in consecutive activation of suppressor T cells (T_s; day 1-3), a population regulating T_s(T₃; day 2-4) and of T_h (day 4). Furthermore, regulatory elements displayed a cyclical behavior like PFC. T_h and T₃ oscillated within a period of 4 days in phase with PFC, while T_s oscillated phase-shifted to PFC, T_h and T₃. Hence, oscillation of PFC after priming with a T-dependent antigen is the result of interactions among regulatory T cells. The data are interpreted as follows. T_h are the primum movens of the oscillatory behavior of PFC response, since T_h oscillate in phase with PFC and display the same pattern of decreasing amplitudes as PFC. However, the basic regulatory elements are T_s and T₃ which are interlinked and oscillate phase shifted. As revealed by the time- course analysis of LD curves, T₃ function as suppressor cells for T_s. Hence the status of mutual interactions of T_s and T₃ determines suppression of T_h or release from suppression, i.e. when T₃ are found at high frequencies, T_h are released from suppression, since T₃ suppresses T_s. Instead, the increase in the frequency of T_s and their predation on T_h determine the decrease of the frequency of Th. Thus, these data support the hypothesis of a circular network, the central regulatory core being composed of two elements, T_s and T₃, with mutual suppressive activity.