S 39-UTR containing PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22189367 two wild-type and two mutated miR-126 binding sites were used to produce the constructs. The sequences of all primers used for plasmid construction are reported in Western Blotting Whole cell lysates were prepared in Nonidet P-40 lysis buffer. Lysates were subjected to SDS/PAGE and blotted on a Hybond C super nitrocellulose membrane. The intensity of bands was quantified using Image J software. We used BCL2 , CRK , KRAS and GAPDH monoclonal mouse antibodies. on the microarray were first background subtracted and normalized before analysis. Global background subtraction corrects for several experimental factors that may cause a systematic spatial variability on a microarray. Following this, the 7 replicate intensity values of each miRNA were summarized by their median value. Quantile normalization was then performed across all the different arrays. These microarray data are presented as the median relative miRNA expression levels observed and the median logarithmized fold changes between tissue types. A hierarchical clustering heatmap was created using the 35 miRNAs with the highest variability in order to separate the data graphically. This was done because if all the miRNAs were used then there would be no reliable image, since most are contributing more background noise than signal. To detect whether partitioning was significant, a 363 contingency table consisting of the 3 main groups of tissue type, was analysed using Fisher’s Exact test. A P,0.05 was considered a significant clustering result. Limma is a test for differential expression analysis of data arising from microarray experiments. Empirical Bayes and other methods are used to borrow information across genes, making the analyses ideal for experiments with a small number of arrays. The resulting P-values were adjusted for multiple testing by the BenjaminiHochberg method. A log fold change for a deregulated miRNA with a limma adjusted P,0.05 was considered statistically significant. Results Microarray expression profiles reveal general miRNA down-regulation in PDAC compared to low malignant potential BCT In order to distinguish the various types of pancreatic tumor, miRNA expression profiling was performed using total RNA derived from FFPE tissues of low and high malignant potential BCT and ductal adenocarcinoma. It has already been described that PDAC is mainly characterized by miRNA upregulation. Bloomston et al. identified 30 miRNAs up-regulated and 3 down-regulated in PDAC compared to normal pancreatic tissue. This suggested that miRNA up-regulation represents an important event for pancreatic cancer progression, but interestingly comparing the miRNA expression levels between the low malignant potential BCT and PDAC, general miRNA down-regulation in cancer was observed. Hierarchical clustering based on the expression of these miRNAs correctly aggregated benign and PDAC cases. The first cluster consists of 80% PDAC, 20% CEI and no BCT 485-49-4 web samples and thus contains predominantly PDAC samples. The second cluster contains 41% PDAC, 41% BCT and 18% CEI samples and finally the third cluster contains 14% PDAC, 24% CEI and 62% BCT samples, thus consists predominantly of BCT samples. The detected partitioning and clustering was statistically significant. Immunohistochemistry Sections from FFPE blocks were prepared for immunohistochemical examination. After deparaffinisation and rehydration, antigen retrieval was performed by boiling in 10 mmol/l of citrate buffer fo