The histamine H<sub>4</sub> receptor, like the other three histamine receptors, is a member of the G protein-coupled receptor superfamily that in humans is encoded by the HRH4 gene.
Discovery
Unlike the histamine receptors discovered earlier, H<sub>4</sub> was found in 2000 through a search of the human genomic DNA data base.
Tissue distribution
H<sub>4</sub> is highly expressed in bone marrow and white blood cells and regulates neutrophil release from bone marrow and subsequent infiltration in the zymosan-induced pleurisy mouse model. It was also found that H<sub>4</sub> receptor exhibits a uniform expression pattern in the human oral epithelium.
Function
The Histamine H<sub>4</sub> receptor has been shown to be involved in mediating eosinophil shape change and mast cell chemotaxis. This occurs via the βγ subunit acting at phospholipase C to cause actin polymerization and eventually chemotaxis. was built by homology modelling based on the crystal structure of bovine rhodopsin. This model was used for the interpretation of site-directed mutagenesis data, which revealed the crucial importance of Asp94 (3.32) and Glu182 (5.46) residues in ligand binding and receptor activation.
A second rhodopsin based structural model of the H<sub>4</sub> receptor was successfully used for the identification of novel H<sub>4</sub> ligands.
Recent advancements in GPCR crystallization, in particular the determination of the human histamine H<sub>1</sub> receptor in complex with doxepin will likely increase the quality of novel structural H<sub>4</sub> receptor models.
Ligands
Although the effectiveness of H4 receptor ligands has been studied in animal models and human biological samples, further research is needed to understand genetic polymorphisms and interspecies differences in their actions and pharmacological characteristics.
H<sub>4</sub> receptor antagonists could be used to treat asthma and allergies.
The highly selective histamine H<sub>4</sub> antagonist VUF-6002 is orally active and inhibits the activity of both mast cells and eosinophils in vivo, and has anti-inflammatory and antihyperalgesic effects.
See also
- Histamine H<sub>1</sub>-receptor
- Histamine H<sub>2</sub>-receptor
- Histamine H<sub>3</sub>-receptor