Abstract
Results show that smooth muscle-specific promoters represent novel downstream targets of the winged helix factor hepatocyte nuclear factor-3 homologue 1 (HFH-1). HFH-1 strongly represses telokin promoter activity when overexpressed in A10 vascular smooth muscle cells. HFH-1 was also found to repress transcription of several other smooth muscle-specific promoters, including the SM22alpha promoter. HFH-1 inhibits telokin promoter activity, by binding to a forkhead consensus site located within an AT-rich region of the telokin promoter. The DNA-binding domain alone was sufficient to mediate inhibition, suggesting that binding of HFH-1 blocks the binding of other positive-acting factors. HFH-1 does not disrupt serum response factor binding to an adjacent CArG box within the telokin promoter, implying that HFH-1 must compete with other unidentified trans-activators to mediate repression. The localization of HFH-1 mRNA to the epithelial cell layer of mouse bladder and stomach implicates HFH-1 in repressing telokin expression in epithelial cells. This suggests that cell-specific expression of telokin is likely mediated by both positive-acting factors in smooth muscle cells and negative-acting factors in nonmuscle cell types. We propose a model in which the smooth muscle specificity of the telokin promoter is regulated by interactions between positive- and negative-acting members of the hepatocyte nuclear factor-3/forkhead family of transcription factors.
Highlights
Unraveling the mechanisms regulating the expression of smooth muscle-specific genes is an important step toward understanding the development and differentiation of smooth muscle
hepatocyte nuclear factor-3 homologue 1 (HFH-1) inhibits telokin promoter activity, by binding to a forkhead consensus site located within an AT-rich region of the telokin promoter
We propose a model in which the smooth muscle specificity of the telokin promoter is regulated by interactions between positive- and negative-acting members of the hepatocyte nuclear factor-3/forkhead family of transcription factors
Summary
Unraveling the mechanisms regulating the expression of smooth muscle-specific genes is an important step toward understanding the development and differentiation of smooth muscle. The regulatory regions of several smooth muscle-specific genes including the telokin, smooth muscle myosin heavy chain, SM22␣, smooth muscle ␣- and ␥-actin genes have been studied in order to identify transcription factors that regulate their expression Analysis of these genes in transgenic mice has revealed that each transgene exhibits a distinct pattern of expression in different smooth muscle tissues [6, 12,13,14,15,16,17]. The repression of reporter gene activity is mediated by the forkhead domain of HFH-1 and does not appear to involve inhibition of SRF binding to the promoter These data suggest that the cell-restricted expression of telokin and other smooth musclespecific genes is likely to be controlled by the activity of positive-acting factors in smooth muscle cells together with negative regulatory factors such as HFH-1 in other cell types
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