Mouse connexin40: Gene structure and promoter analysis

A family of related connexin genes encodes the subunit gap junction proteins that form intercellular channels ill different tissues. Connexin40 (Cx40) is one of these proteins, and it exhibits limited expression only in a few cells of the cardiovascular system. To begin to analyze Cx40 expression, we isolated a 3.3-kb rat Cx40 cDNA by hybridization screening of a bacteriophage library prepared from BWEM cells and isolated corresponding mouse genomic clones from a bacterial artificial chromosome library. Restriction mapping, sequencing and comparison to the rat cDNA showed that the mouse Cx40 gene contained a short first exon, an 11.4-kb intron, and a second exon containing the complete coding region and 3'-UTR. Exon I contained only 1 base that differed between rat and mouse. Primer extension experiments yielded a single band and confirmed the position of the transcriptional start site, We obtained 1,2 kb of sequence 5' of the transcriptional start site and 400 bp 5' of exon I, Exon I was closely preceded by a consensus TATA box, The flanking sequences contained a number of potential transcription factor binding sites (including AP-1, AP-2; SP1, TRE, and p53). To identify transcriptional regulatory elements in the Cx40 promoter region, a series of DNA deletion fragments flanking exon I was prepared, subcloned adjacent to a luciferase reporter gene, and used for transient transfections of BWEM, SHM, and N2A cells, The resulting luciferase activity determinations suggested that an area of 300 bp 5' of the transcription start site acted as a basal promoter for Cx40 and that there was a strong negative regulatory element in the region from +100 to +297. (C) 1997 Academic Press.