Transcriptional activity of the SHP-1 gene in MCF7 cells is differentially regulated by binding of NF-Y factor to two distinct CCAAT-elements

Abstract

Our previous studies have shown that SHP-1, a SH2 domain-containing protein-tyrosine phosphatase, is expressed not only in cells of hematopoietic lineages, but also in many non-hematopoietic cells under the control of an alternative tissue-specific promoter, P1. In this study, the activity of the P1 promoter was analyzed in a region spanning 3.5 kb upstream of the major transcription start site in non-hematopoietic MCF-7 cells. Using DNA footprinting, gel retardation assays and mutational analysis, we have characterized cis-regulatory elements that are essential to confer the P1 promoter activity. An upstream Sp1 element (−126 to −118) positively regulated this TATA-box-lacking promoter. Two inverted CCAAT-elements (−332 to −328 and −66 to −62) played important roles in regulating the SHP-1 gene expression, and transcription factor NF-Y predominantly bound to the two CCAAT-elements. Binding of NF-Y to the distal CCAAT-element enhanced the transcriptional activity of the P1 promoter. In contrast, binding of NF-Y to the proximal CCAAT-element and interacting with repressor(s) inhibited the promoter activity. Furthermore, incubation of MCF7 cells with 100 ng/ml trichostatin A, an inhibitor of histone deacetylase, significantly increased the activity of the P1 promoter. Mutation in the proximal CCAAT-element, however, eliminated the activating effect of trichostatin A on the promoter. Together, our data suggest that NF-Y factor can function either as a specific positive or negative regulator of P1 promoter activity in non-hematopoietic MCF7 cells.