Abstract
Myometrial connexin-43 gap junctions are scarce throughout gestation but appear in large numbers at term to facilitate contractions during labor. The mechanisms that regulate this process are incompletely characterized. This report investigates the effects of protein kinase C activation on the regulation of connexin-43 gene transcription in human uterine smooth muscle cells. In primary myometrial cells treated with phorbol ester, transient increases in c-Fos and c-Jun protein levels were observed at 2-4 h, followed by significant increases in connexin-43 protein levels at 6-8 h. Nuclear run-on transcription analysis showed an increase in connexin-43 transcription 3 h after phorbol ester treatment. AP-1 sites were identified in the sequence of the 5'-flanking promoter region of the human connexin-43 gene at 44 and 1000 base pairs upstream of transcription start. Transcription from a reporter plasmid containing the proximal human connexin-43 promoter was increased in transfected primary cultures treated with phorbol ester. Mutation of the proximal AP-1 site in the promoter abolished the phorbol ester-dependent transactivation. This work provides evidence that transcription of the human connexin-43 gene is induced through protein kinase C activation in uterine smooth muscle cells, and that the induction involves up-regulation and activation of c-Jun and c-Fos.
Highlights
Connexins compose a family of transmembrane proteins, which form hexameric hemi-channel structures in cell membranes
The steroid hormones regulate cx43 expression in myometrial tissue during pregnancy, but it is evident that other factors such as uterine distention are involved in the regulation
We show that after treatment with TPA, primary uterine smooth muscle cells exhibit a dramatic increase in levels of c-Fos and c-Jun proteins, the factors that bind to AP-1 sites
Summary
Connexins compose a family of transmembrane proteins, which form hexameric hemi-channel structures in cell membranes. There is little information concerning the mechanisms that control connexin-43 gene expression or that govern tissue-specific differences in gene expression. In adult tissues such as the heart muscle and bone, cx expression is relatively stable. The mechanisms that regulate the sparsity of myometrial gap junctions during pregnancy and their abundance during parturition are unknown. Cx expression only remains high in estrogen-treated myometrial cells if internal uterine pressure is maintained after delivery [10]. These data indicate that estrogen acts with a factor(s) produced through uterine distension to influence myometrial cx gene expression. It is plausible that such a factor or factors are bio-reactive moieties derived from phospholipid breakdown upon extension of the smooth muscle membrane
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