Histamine increases anti-CD3 induced IL-5 production of TH2-type T cells via histamine H2-receptors.

Besides its proinflammatory functions histamine released from basophils and mast cells during immediate-type hypersensitivity reactions is known to inhibit several lymphocyte functions like IL-2 and gamma-IFN production. Recently, it has been shown that T helper cells of type 2 phenotype (TH2) represent the T cell fraction which may play a pivotal role in the promotion of the allergic inflammatory eosinophilic late-phase reaction by secretion of cytokines, especially IL-4 and IL-5. We have investigated the effect of histamine on anti-CD3 induced IL-4 and IL-5 production by TH2 cells. Histamine in concentrations between 10(-7) and 10(-5) mol/l concentration-dependently increased anti-CD3 induced IL-5 production up to 120%, whereas IL-4 production was not affected. The activity of histamine in increasing IL-5 production was mimicked by the H2-receptor agonist dimaprit. Histamine induced increase in IL-5 production was inhibited by histamine H2-receptor antagonists, but remained unaffected by H1- or H3-receptor antagonists. Administration of forskolin which directly stimulates the production of cAMP, the second messenger of the H2-receptor, also resulted in an increase in anti-CD3 induced IL-5 production. These results indicate that the histamine-mediated increase in anti-CD3 induced IL-5 production is mediated via H2-receptors. Consequently, histamine released from mast cells and basophils during the early-phase allergic reaction may act as an important stimulatory signal for the initiation of the allergic inflammatory late-phase reaction by increasing local IL-5 production of allergen triggered TH2 cells.