Abstract

Aromatase converts androgens to estrogens. The expression of this enzyme is driven by multiple tissue-specific promoters which are differentially regulated. Aromatase expression in breast cancer and the surrounding adipose cells is directed mainly by promoters I.3 and II, while its expression in the normal breast adipose tissue is driven by promoter I.4. Like promoter II, promoters I.3 is thought to be a cAMP-driven promoter, demonstrated previously by cell culture experiments. In the present study, we have identified and characterized a cAMP-responsive element (CREaro) upstream from promoter 1.3. This positive element, TGAAGTCA, between −66 and −59 bp relative to the transcriptional start site of promoter 1.3 was identified by DNA deletion and mutation analyses. The sequence of CREaro is one base different from the consensus CRE sequence (CREpal; TGACGTCA), and the mutational analysis revealed that CREaro had a higher enhancer activity to promoter I.3 than CREpal. Nuclear proteins from both WS3TF breast tumor fibroblasts and SK-BR-3 breast cancer cells bound to this CREaro, as demonstrated by DNA mobility shift assay. The molecular weight of the major binding protein in fibroblasts was determined to be approximately 60 kDa, as shown by UV crosslinking, which is different from those of known CRE-binding proteins. It is thought that CREB1 is not expressed in tumor fibroblasts because the Western blot analysis using anti-CREB1 antibody was not able to detect CREB1 in the nuclear protein extract from these cells. DNA mobility shift analysis using a nuclear protein extract from SK-BR-3 cells revealed that at least two proteins bound to the CREaro and that one of these proteins was identified to be CREB1. These studies provide direct evidence that promoter I.3 is a cAMP-responsive promoter.

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