The results showed that miR-296-3p was down-regulated in U251AR cells, concurrent with the up-regulation of EAG1 protein, compared with the parental U251 cell line. In vitro drug sensitivity assay demonstrated that over-expression of miR-296-3p sensitised glioblastoma (GBM) cells to anticancer drugs, whereas down-expression using antisense oligonucleotides conferred MDR. Ectopic expression of miR-296-3p reduced EAG1 expression and suppressed cell proliferation
drug resistance, and the luciferase activity of an EAG1 30-untranslated region-based reporter construct in U251AR cells, whereas EAG1 over-expression rescued the suppressive effect of miR-296-3p in U251AR cells. We also found that EAG1 was widely over-expressed and inversely correlated with miR-296-3p in clinical specimens. Taken together, our findings suggest INCB024360 purchase that miR-296-3p may play a role of MDR in glioblastoma at least in part by targeting EAG1. (C) 2012 Elsevier Ltd. All AZD9291 chemical structure rights reserved.”
“p53 is a master regulatory, sequence-specific transcription factor that directly controls expression of over 100 genes in response to various stress signals. Transactivation is generally considered to occur through p53 binding
to a consensus response element (RE) composed of two 5′-RRRCWWGYYY-3′ decamers. Recently, studying the human angiogenesis-related gene FLT1 we discovered that p53 can mediate limited transactivation at IPI-549 datasheet a noncanonical 1/2 site and could synergize with the estrogen receptor (ER) acting in cis at a nearby ER 1/2 site. To address the generality of concerted transactivation by p53 and ER, the 1/2 site in the FLT1 promoter was replaced with a variety of 1/2 sites, as well as canonical weak and strong p53 REs
of human target genes. The p53 transactivation of all tested sequences was greatly enhanced by ligand-activated ER acting in cis. Furthermore, enhanced transactivation extends to several cancer-associated p53 mutants with altered function, suggesting ER-dependent mutant p53 activity for at least some REs. The enhanced transactivation was also found with p63 and p73. We propose a general synergistic relationship between p53 family and ER master regulators in transactivation of p53 target canonical and noncanonical REs, which might be poorly responsive to p53 on their own. This relationship greatly expands the transcriptional master network regulated by p53 in terms of genes affected and levels of expression and has implications for the appearance and possible treatments of cancer.