Zusammenfassung
The histamine (HA) receptor subtype 1 (H1R) and H4R are expressed on immune cells and contribute to an inflammatory reaction. Both receptor subtypes individually enhance the intracellular concentrations of calcium and regulate the accumulation of cAMP, increase MAPK activity, and regulate expression of e.g., inflammatory genes. In a previous study we characterized and compared signaling pathways ...
Zusammenfassung
The histamine (HA) receptor subtype 1 (H1R) and H4R are expressed on immune cells and contribute to an inflammatory reaction. Both receptor subtypes individually enhance the intracellular concentrations of calcium and regulate the accumulation of cAMP, increase MAPK activity, and regulate expression of e.g., inflammatory genes. In a previous study we characterized and compared signaling pathways of the murine orthologs of the H1R and the H4R recombinantly expressed at comparable levels in HEK 293 cells. In the present study, we aimed at analyzing possible interactions of the signaling pathways emerging at the mH(1)R and the mH(4)R. Therefore, we co-expressed both receptor subtypes at comparable levels in HEK 293 cells and investigated HA-induced signaling parameters such as the concentrations of intracellular calcium and cAMP, phosphorylation of the MAPKs p38, ERK 1, and ERR 2, and of the transcription factor CREB, and expression of the immediate early gene EGR-1. We demonstrate that the intracellular concentrations of calcium and CAMP as well as the EGR-1 expression are regulated exclusively via the mH(1)R. In contrast, both receptor subtypes H1R and H4R synergize in HA-induced MAPK activation. This synergism most probably relies on signaling pathways independent of the second messenger calcium and cAMP. In summary, we provide evidence that the mH(1)R inhibits or dampens the function of the co-expressed mH(4)R regarding specific parameters, while other signaling events are regulated cooperatively by the mH(1)R and the mH(4)R. (C) 2015 Elsevier Inc. All rights reserved.