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(Arteriosclerosis, Thrombosis, and Vascular Biology. 1999;19:2591.)
© 1999 American Heart Association, Inc.

Vascular Biology

Characterization of an E-box–Dependent cis Element in the Smooth Muscle -Actin Promoter

Frank Jung; A. Daniel Johnson; Meenakshi S. Kumar; Beiyang Wei; Martina Hautmann; Gary K. Owens; Coleen McNamara
Abstract—Identification of the regulators of smooth muscle specific gene expression is critical for understanding smooth muscle cell (SMC) differentiation and the alterations in SMC phenotype seen in vascular diseases. Previous studies have identified that a 2-bp mutation in a conserved cis-acting element (TGTTTATC) in the promoter of the chicken smooth muscle (SM) -actin gene abolished nuclear factor binding and decreased transcriptional activity of a 271-bp SM -actin promoter fragment when transfected into rat aortic SMC. However, the promoter region containing this conserved sequence has negative cis regulatory activity when studied in homologous systems. The goal of the present studies was to further characterize the transcriptional activity of the rat SM -actin promoter region between –224 and –236 that is conserved across mammals. DNAse I analysis and electrophoretic mobility shift assays demonstrated that SMC nuclear proteins bound an extended sequence (TGTTTATCCCCATAA). Transient transfection experiments of wild-type and mutant rat SM -actin promoter-luciferase constructs into rat aortic SMC revealed that promoter activity was enhanced by mutations of specific nucleotides in the TGTTTATCCCCA region. Interestingly, the TGTTTATCCCCA element in the rat SM -actin promoter is centered between 2 canonical E-boxes. Mutations of the flanking E-boxes abolished the enhancement in promoter activity seen with mutation of the TGTTTATCCCCA element alone. Thus studies provide evidence for a regulatory cassette in the rat SM -actin promoter that regulates gene expression via combinatorial interactions between 2 E-boxes and a newly described TGTTTATCCCCA element.

Key Words: SM -actin • E-box • smooth muscle cell • differentiation • transcription

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