Inflammation-driven diseases encompass a wide array of pathological conditions characterised by immune system dysregulation leading to tissue damage and dysfunction. Among the myriad of mediators involved in the regulation of inflammation, histamine has emerged as a key modulatory player. Histamine elicits its actions through four rhodopsin-like G-protein-coupled receptors (GPCRs), named chronologically in order of discovery as histamine H, H, H and H receptors (HR). The relatively low affinity HR and HR play pivotal roles in mediating allergic inflammation and gastric acid secretion, respectively, whereas the high affinity HR and HR are primarily linked to neurotransmission and immunomodulation, respectively. Importantly, however, besides the HR, both HR and HR are also crucial in driving immune responses, the HR tending to promote yet ill-defined and unexploited suppressive, protective and/or resolving processes. The modulatory action of histamine via its receptors on inflammatory cells is described in detail. The potential therapeutic value of the most recently discovered HR in inflammatory disorders is illustrated via a selection of preclinical models. The clinical trials with antagonists of this receptor are discussed and possible reasons for their lack of success described.
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