Genomic organization and characterization of splice variants of the human histamine H3 receptor

Structure and expression of the human histamine H4-receptor gene

We report the characterization by genomics-based approach of the human H4-receptor gene structure. The H4-receptor gene have been mapped by radiation hybrid experiments (Gene Bridge 4) on chromosome 18q11.2, between the AFMBB11WH5 and CHLC.GATA85D10 markers. The H4-receptor gene spans more than 21 kbp and contains three exons separated by two large introns (>7 kbp). RT-PCR analysis showed that the H4-receptor gene encoded a 3.7 kb mRNA which did not seem to be alternatively spliced within its coding region. The H4-receptor transcripts were found to be highly expressed in peripheral tissues implicated in inflammatory responses such as leukocytes, spleen, lung, and liver. In addition, low expression level of the H4-receptor mRNA was also detected in several human brain regions. Analysis of the 5'-flanking region of the H4-receptor gene did not reveal the existence of canonical TATA or CAAT-box. However, several putative regulatory elements mediating TNFalpha or IL-6-stimulated transcriptional activation were detected. The uteroglobin promoter binding factor, known to mediate anti-inflammatory response of uteroglobin, in the lung, was also found in this region. Thus, the description of the H4-receptor gene promoter region will facilitate the elucidation of its transcriptional control by factors secreted during inflammatory responses.