Functional characterization of bovine von Willebrand factor gene promoter in bovine endothelial cells demonstrates species-specific properties

Abstract

Von Willebrand factor (vWF), a protein necessary for platelet adhesion and thrombus formation, is specifically synthesized in endothelial cells and in platelet precursors (megakaryocytes). We previously demonstrated that the sequences localized either in the 5′-flanking region or in the first exon of human (hu) vWF gene ( vWF), which regulate the cell-specific transcription, are not conserved in the bovine counterpart. In order to look for cis-acting elements involved in the endothelial expression of bovine (bo) vWF, fragments including 113 base pairs (bp) of a sequence 5′-flanking the transcription start point ( tsp, +1) and various deletions of the first 233 bp exon were linked in plasmids to the bacterial chloramphenicol (Cm) acetyltransferase gene ( cat). These constructs were analyzed by transient transfection in calf pulmonary artery endothelial (CPAE), human epithelial (HeLa) from cervix and green monkey fibroblasts from kidney (COS) cells. The longest fragment, containing 229 bp of the first exon, was the most active, with identical cat expression in the three cell types. The CAT activity was equivalent to that measured by transfection of the same cells with the basal promoter (from bp −89 to +19) of hu vWF. Addition of upstream bo vWF sequences from bp −113 to −1362 resulted in progressive reduction of the activity of the −113/+229 fragment. The upstream negative regulatory domains between −1362 and −278 also repressed the heterologous thymidine kinase ( tk) promoter in CPAE and HeLa cells. Comparison of results with those previously obtained by transfection of hu vWF promoter in bovine endothelial cells demonstrates that the cis-acting elements do not behave identically in bo vWF promoter. In particular, positive tissue-specific elements able to overcome the negative regulation in endothelial cells could not be found in bo vWF between bp −1362 and +229.