Platelet-derived growth factor-BB and Ets-1 transcription factor negatively regulate transcription of multiple smooth muscle cell differentiation marker genes

doi:10.1152/ajpheart.00625.2003

Platelet-derived growth factor-BB and Ets-1 transcription factor negatively regulate transcription of multiple smooth muscle cell differentiation marker genes

Frédéric Dandré and Gary K. Owens

Department of Molecular Physiology and Biological Physics, University of Virginia, Charlottesville, Virginia 22903

Submitted 2 July 2003 ; accepted in final form 23 January 2004

Platelet-derived growth factor (PDGF)-BB, a potent mitogen formesenchymal cells, also downregulates expression of multiplesmooth muscle (SM) cell (SMC)-specific markers. However, thereis conflicting evidence whether PDGF-BB represses SMC markerexpression at a transcriptional or posttranscriptional level,and little is known regarding the mechanisms responsible forthese effects. Results of the present studies provide clearevidence that PDGF-BB treatment strongly repressed SM ${alpha}$ -actin,SM myosin heavy chain (MHC), and SM22 ${alpha}$ promoters in SMCs. Ofmajor significance for resolving previous controversies in thefield, we found PDGF-BB-induced repression of SMC marker genepromoters in subconfluent, but not postconfluent, cultures.Treatment of postconfluent SMCs with a tyrosine phosphataseinhibitor restored PDGF-BB-induced repression, whereas treatmentof subconfluent SMCs with a tyrosine kinase blocker abolishedPDGF-BB-induced repression, suggesting that a tyrosine phosphorylationevent mediates cell density-dependent effects. On the basisof previous observations that Ets-1 transcription factor isupregulated within phenotypically modulated neointimal SMCs,we tested whether Ets-1 would repress SMC marker expression.Consistent with this hypothesis, results of cotransfection experimentsindicated that Ets-1 overexpression reduced transcriptionalactivity of SMC marker promoter constructs in SMCs, whereasit increased activity of SM ${alpha}$ -actin promoter in endothelial cells.PDGF-BB treatment increased expression of Ets-1 in culturedSMCs, and SM ${alpha}$ -actin mRNA expression was reduced in multipleindependent clones of SMCs stably transfected with an Ets-1-overexpressingconstruct. Taken together, results of these experiments providenovel insights regarding possible mechanisms whereby PDGF-BBand Ets-1 may contribute to SMC phenotypic switching associatedwith vascular injury.

vascular injury; promoter; cell density; signaling

Address for reprint requests and other correspondence: G. K. Owens, Cardiovascular Research Center, Univ. of Virginia, PO Box 801394, Charlottesville, VA 22908-1394 (E-mail: gko{at}virginia.edu).

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