Histamine (HA) is recognized by its target cells via four G-protein-coupled receptors, referred to as histamine H1-receptor (H1R), H2R, H3R, and H4R. Both H1R and H4R exert pro-inflammatory functions. However, their signal transduction pathways have never been analyzed in a directly comparable manner side by side. Moreover, the analysis of pharmacological properties of the murine orthologs, representing the main targets of pre-clinical research, is very important. Therefore, we engineered recombinant HEK293 cells expressing either mouse (m)H1R or mH4R at similar levels and analyzed HA-induced signalling in these cells. HA induced intracellular calcium mobilization via both mH1R and mH4R, with the mH1R being much more effective. Whereas cAMP accumulation was potentiated via the mH1R, it was reduced via the mH4R. The regulation of both second messengers via the H4R, but not the H1R, was sensitive to pertussis toxin (PTX). The mitogen-activated protein kinases (MAPKs) ERK 1/2 were massively activated downstream of both receptors and demonstrated a functional involvement in HA-induced EGR-1 gene expression. The p38 MAPK was moderately activated via both receptors as well, but was functionally involved in HA-induced EGR-1 gene expression only in H4R-expressing cells. Surprisingly, in this system p38 MAPK activity reduced the HA-induced gene expression. In summary, using this system which allows a direct comparison of mH1R- and mH4R-induced signalling, qualitative and quantitative differences on the levels of second messenger generation and also in terms of p38 MAPK function became evident.
Histamine is involved in the execution of an immune reaction. Receptors for histamine, of which four different subtypes are known so far, are found on dendritic cells and on T cells. Via these receptors, histamine either indirectly or directly affects the activation of T cells. Data in the literature regarding the involved receptor subtypes and the mode of action of histamine on T cells are somewhat contradictory and depend on the type of cells analyzed, polarized T cells, or freshly prepared T cells within the context of the whole splenocyte population. Therefore, we analyzed the effect of histamine on murine T cells within splenocytes in a detailed manner. We stimulated freshly prepared splenocytes in the presence or absence of histamine with α-CD3 in vitro and analyzed the induced cytokine production. We show that histamine reduced the α-CD3-induced interferon-γ (IFN-γ) production of CD4⁺ cells via the histamine H₂-receptor. Moreover, the effect of histamine on the α-CD3-induced IFN-γ production could be transferred within conditioned splenocyte supernatants induced by histamine (in the absence of α-CD3). Thus, the histamine effect is mediated by a soluble factor, which, however, is neither of the classical anti-inflammatory mediators, interleukin-10, or transforming growth factor-β.
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