Abstract
BackgroundInward rectifier potassium channels (IRK) contribute to the normal function of skeletal and cardiac muscle cells. The chick inward rectifier K+ channel cIRK1/Kir2.1 is expressed in skeletal muscle, heart, brain, but not in liver; a distribution similar but not identical to that of mouse Kir2.1. We set out to explore regulatory domains of the cIRK1 promoter that enhance or inhibit expression of the gene in different cell types.ResultsWe cloned and characterized the 5'-flanking region of cIRK1. cIRK1 contains two exons with splice sites in the 5'-untranslated region, a structure similar to mouse and human orthologs. cIRK1 has multiple transcription initiation sites, a feature also seen in mouse. However, while the chicken and mouse promoter regions share many regulatory motifs, cIRK1 possesses a GC-richer promoter and a putative TATA box, which appears to positively regulate gene expression. We report here the identification of several candidate cell/tissue specific cIRK1 regulatory domains by comparing promoter activities in expressing (Qm7) and non-expressing (DF1) cells using in vitro transcription assays.ConclusionWhile multiple transcription initiation sites and the combinatorial function of several domains in activating cIRK1 expression are similar to those seen in mKir2.1, the cIRK1 promoter differs by the presence of a putative TATA box. In addition, several domains that regulate the gene's expression differentially in muscle (Qm7) and fibroblast cells (DF1) were identified. These results provide fundamental data to analyze cIRK1 transcriptional mechanisms. The control elements identified here may provide clues to the tissue-specific expression of this K+ channel.
Highlights
Inward rectifier potassium channels (IRK) contribute to the normal function of skeletal and cardiac muscle cells
Since we have identified polyadenylation signals at bp positions 1,645–1,650 and 1,865– 1,870 of the cDNA, we conclude that chicken IRK1 (cIRK1) has 2 exons and no additional exon in the 3'UTR
We have identified multiple transcription initiation sites and several candidate regulatory elements in the chicken potassium channel gene cIRK1
Summary
Inward rectifier potassium channels (IRK) contribute to the normal function of skeletal and cardiac muscle cells. The chick inward rectifier K+ channel cIRK1/Kir2.1 is expressed in skeletal muscle, heart, brain, but not in liver; a distribution similar but not identical to that of mouse Kir2.1. The inward rectifier potassium channel IRK1/Kir2.1 helps controls cell excitability through setting the resting membrane potential [1]. Its dominant role of inward rectification for the normal function of skeletal and cardiac muscles is shown by the complete loss of inward rectifying current and K+-induced dilations in arterial myocytes from Kir2.1 knockout mice [2] and periodic paralysis, and (page number not for citation purposes). Kir2.1 expression is detected in excitable cells in brain, heart, and skeletal muscle in both mouse and chick [4,5,6,7,8]. Using in vitro promoter assays with fragments of the cloned cIRK1 locus, we identified several candidate control domains that may participate in regulating the channel's exquisite tissue-specific transcription
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