To define the minimal sequences required for expression of the connexin 43 gene (cx43) in myometrial cells, we generated 5` deletion constructs of a fragment extending 1686 base pairs upstream and 162 base pairs downstream of the transcription start site and determined their ability to drive expression of the chloramphenicol acetyltransferase reporter gene in transfected myometrial cell lines. Our investigation revealed two cis-acting regulatory elements within this fragment. Deletion of a region extending from -102 to -92 led to an increase of the promoter activity by greater than 10-fold, indicating a presence of a repressor element. Deletion of a region extending from -72 to -62 caused a decrease of the promoter activity of a similar extent, implying the existence of a positive element. Electrophoretic mobility shift assays demonstrated that synthetic oligonucleotides derived from these two small regions can each bind with a nuclear protein(s) prepared from myometrial cells, and an introduction of three and two base substitutions into each of these oligomers was sufficient to abolish their protein binding capability. These same mutations, when incorporated in the chloramphenicol acetyltransferase constructs, diminished regulatory functions of the negative and positive elements, and the protein(s) that bind to these functional elements was found in several tissues known to express cx43 gene.

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