ChemR23 is a G protein–coupled receptor that is triggered by two ligands, the peptide chemerin and the eicosapentaenoic acid–derived lipid mediator resolvin E1 (RvE1). Chemerin acts as a chemoattractant for monocytes and macrophages, whereas RvE1 promotes resolution of inflammation-inducing macrophage phagocytosis of apoptotic neutrophils. Although ChemR23-mediated signaling plays a role in mononuclear cell migration to inflamed tissue, as well as in the resolution of inflammation, its regulation in different polarization states of macrophages is largely unknown. We analyzed the expression and function of ChemR23 in monocytes and differently activated human primary macrophages. Using 5′ RACE, we identified three transcription start sites and several splice variants of ChemR23 in both monocytes and macrophages. Although the promoters P1 and P3 are used equally in unpolarized macrophages, stimulation with LPS or IFN-γ leads to increased transcription from P3 in inflammatory M1 macrophages. Such ChemR23-expressing M1 macrophages are chemotactic to chemerin, whereas M2 macrophages not expressing ChemR23 surface receptor are not. Repolarization of ChemR23-expressing M1 macrophages with 10 nM RvE1 increases IL-10 transcription and phagocytosis of microbial particles, leading to a resolution-type macrophage distinct from the M2 phenotype. These results show that ChemR23 is tightly regulated in response to inflammatory and anti-inflammatory stimuli. The restricted expression of ChemR23 in naive and M1 macrophages supports the role of ChemR23 in the attraction of macrophages to inflamed tissue by chemerin and in the initiation of resolution of inflammation through RvE1-mediated repolarization of human M1 macrophages toward resolution-type macrophages.
Resolvin D1 (RvD1) was shown to be a potent anti-inflammatory and proresolution lipid mediator in several animal models of inflammation, but its mechanism of action in humans is not clear. We show that the RvD1 receptor GPR32 is present on resting, proinflammatory M(LPS) and alternatively activated primary human M(IL-4) macrophages, whereas TGF-β and IL-6 reduce its membrane expression. Accordingly, stimulation of resting primary human macrophages with 10 nM RvD1 for 48 h maximally reduced the secretion of the proinflammatory cytokines IL-1β and IL-8; abolished chemotaxis to several chemoattractants like chemerin, fMLF, and MCP-1; and doubled the phagocytic activity of these macrophages toward microbial particles. In contrast, these functional changes were not accompanied by surface expression of markers specific for alternatively activated M(IL-4) macrophages. Similar proresolution effects of RvD1 were observed when proinflammatory M(LPS) macrophages were treated with RvD1. In addition, we show that these RvD1-mediated effects are GPR32 dependent because reduction of GPR32 expression by small interfering RNA, TGF-β, and IL-6 treatment ablated these proresolution effects in primary human macrophages. Taken together, our results indicate that in humans RvD1 triggers GPR32 to polarize and repolarize macrophages toward a proresolution phenotype, supporting the role of this mediator in the resolution of inflammation in humans.
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