GSTP1 promoter haplotypes affect DNA methylation levels and promoter activity in breast carcinomas.

The CpG island spanning the transcription start of the glutathione S-transferase P1 becomes methylated in a variety of human cancers including breast cancer. To study the effect of sequence variation on hypermethylation of the GSTP1 promoter, we analyzed the genetic and epigenetic variability in 90 tumors from patients with locally advanced breast cancer. High-resolution quantitative analysis revealed large variability in the DNA methylation levels. Lack of methylation was more often observed in the basal and normal-like estrogen receptor (ER)-negative tumors, and methylated GSTP1 was associated with better overall survival (P = 0.00063). Studies of the genetic variation identified 14 different haplotypes. The distribution of methylation levels of tumors homozygous for the most frequent haplotype was significantly different from other haplotype combinations (P = 0.011), the difference being more pronounced in ER-positive (P = 0.005) and progesterone receptor-positive (P = 0.008) tumors. Regression modeling identified the ER status and haplotype as the main determinants of DNA methylation variability. We identified a putative c-Myb response element (MRE) that was present in one of two minimal promoter haplotypes. In vitro analysis showed that c-Myb binds to the MRE, but binding was weakened by the two polymorphisms. Transient cotransfections in luminal-type and basal-like breast cancer cell lines confirmed cell-specific differential binding of c-Myb to the polymorphic sites, leading to a change in the expression from the GSTP1 promoter in vivo. GSTP1 expression was moderately but significantly (P = 0.01) reduced after siRNA-mediated knockdown of c-Myb. Our results indicate that haplotype structure of a promoter is important for the extent of DNA methylation.

Revisiting a selection of target genes for the hematopoietic transcription factor c-Myb using chromatin immunoprecipitation and c-Myb knockdown.

The transcription factor c-Myb is an important regulator of hematopoiesis required for proper development of most blood cell lineages in vertebrates. An increasing number of target genes for c-Myb are being published, although with little or no overlap between the lists of genes reported. This raises the question of which criteria a bona fide c-Myb-target gene should satisfy. In the present paper, we have analyzed a set of previously reported target genes using chromatin immunoprecipitation (ChIP) and siRNA-mediated knockdown. Among the seven well-studied c-Myb target genes that we analyzed by ChIP, only ADA, c-MYC and MAT2A seemed to be occupied by c-Myb under our experimental settings in the Myb-positive cell lines Jurkat and HL60. After siRNA-mediated knockdown of c-Myb expression, the expression levels of two out of three ChIP positive Myb target genes, ADA and c-MYC, were strongly affected. These results clearly demonstrate the importance of combining different methods for target gene validation and suggest that a combination of ChIP and c-Myb knockdown may represent a powerful approach to identify a core collection of c-Myb target genes.