Serotonin regulation of T-cell subpopulations and of macrophage accessory function.

The role of serotonin as an immune modulator was investigated by measuring the functional competence of T cells from control mice versus from mice whose intracellular stores of serotonin had been depleted by pretreatment with p-chlorophenylalanine (PCPA). While the proportions of splenic CD4+ and CD8+ T cells isolated from control and PCPA-treated mice were similar, the level of expression of the alpha-chain interleukin-2 receptor (IL-2R) was reduced on splenic CD4+ cells but not on CD8+ cells. Culture with the T-cell mitogen concanavalin A (Con A) failed to induce expression of the IL-2R on either CD4+ or CD8+ cells of PCPA-treated mice, although IL-2R was induced on control cells. The proliferative response to Con A by these spleen cells from PCPA-treated mice was also reduced compared to that by control spleen cells. Both expression of IL-2R and proliferation in response to Con A by spleen cells from serotonin-depleted mice were increased or completely restored by supplementation of the cultures with serotonin. Studies to identify the mechanisms for the reduction in T-cell activation when serotonin levels were reduced implicated a defect in the capacity of macrophages from PCPA-treated mice to provide accessory help for T-cell activation. Splenic macrophages from control mice were able to restore the blastogenic capability of lymphocytes from PCPA-treated mice, although macrophages from PCPA-treated mice were unable to support normal lymphocyte blastogenesis unless the cultures were supplemented with serotonin. These results show the requirement of autologous serotonin for optimal T-cell activation and suggest the importance of serotonin in macrophage accessory function for T-cell activation.