A novel regulatory element of a nicotinic acetylcholine receptor gene interacts with a DNA binding activity enriched in rat brain.

Nicotinic acetylcholine receptors are ligand-gated ion channels that play a critical role in signal transmission in the nervous system. The genes encoding the various subunits that comprise functional acetylcholine receptors are expressed in distinct temporal and spatial patterns. Studies to understand the molecular mechanisms underlying the differential expression of the receptor subunit genes have led to the identification, in this report, of a 19-base pair cis-acting element that is required for transcriptional activation of the rat beta 4 subunit gene. Screening of computer data bases with the 19-base pair element revealed the sequence to be unique among known transcriptional regulatory elements. Loss of this element resulted in drastically reduced beta 4 promoter activity in transfected cholinergic SN17 cells. Furthermore, this element specifically interacts with nuclear proteins prepared from both SN17 cells and adult rat brain. UV cross-linking experiments indicated the presence, in SN17 nuclear extracts, of a prominent protein species (approximately 50 kDa) that interacts specifically with the 19-base pair element. These results lead us to hypothesize that interactions between the 50-kDa protein and the novel 19-base pair element are necessary for transcriptional activation of the beta 4 subunit gene.