Project description:The miRNA expression profiles in one pair of hTERT-positive gastric cancer tissue and an hTERT-negative para-cancerous tissue. The para-cancerous tissue is at least 5cm away from the cancer tisse. The expression of hTERT of identified by immunohistochemistry before RNA extraction for miRNA assay. One pair of gastric cancer tissue and para-cancerous tissue(Control). Four replicates per array.

Project description:The genetic changes in gastric adenocarcinoma are extremely complex and reliable tumor markers have not yet been identified. There are also remarkable geographical differences in the distribution of this disease. Our aim was to identify the most differentially regulated genes in 20 gastric adenocarcinomas from a Norwegian selection, compared to matched normal mucosa, and have related our findings to prognosis, survival and chronic Helicobacter pylori infection

Project description:Ascites is a valuable source of cancer biomarkers, because it contains a variety of secreted and shed proteins from cancerous cells. Conversely, most proteomic studies on ascites have focused on ovarian cancer and provided insufficient depth for biomarker discovery. Further, no proteomic analysis of ascites from gastric cancer has been reported. To this end, we profiled the human ascites proteome to obtain a pool of biomarker candidates using comprehensive proteomic strategies. Subsequently, label-free quantitation was performed to compare the abundance of proteins between benign disease and gastric cancer patients.

Project description:This SuperSeries is composed of the following subset Series: GSE33335: Expression data from gastric tissues: Cancer Samples vs. Matched Adjacent Noncancerous Samples GSE33428: Copy number variation profiling of gastric tissues: Cancer Samples vs. Matched Adjacent Noncancerous Samples Refer to individual Series

Project description:Biopsies from 24 gastric adenocarcinomas and adjacent normal gastric mucosa were analyzed for from 24 patients following surgical resection of the tumor. Genome-wide DNA methylation profiling of the tumor and matched non-cancerous mucosa was performed and compared to previously performed gene expression, survival and clinicopathological parametres.

Project description:Background & Aims: E-cadherin expression disruption is commonly observed in epithelial cancers and metastasis. Such event is also recognized as a crucial step in gastric cancer (GC) initiation and progression. As aberrant expression of microRNAs often perturb the normal expression and function of pivotal cancer-related genes, we characterized and dissected a pathway initiated by loss of microRNA-101 that causes E-cadherin dysfunction through upregulation of EZH2 expression in GC. Methods: Microarrays were used to profile the expression of microRNAs in human GC. Array-CGH revealed DNA copy number changes that were validated by genomic quantitative PCR and Snapshot. Expression levels of microRNAs, mRNA and protein were determined by quantitative-real time PCR and western-blot/co-immunofluorescence. CDH1 inactivating mechanisms were analyzed. Gain and loss of function experiments were done in KatoIII cells. E-cadherin functionality was assessed by immunofluorescence and flow cytometry. Results: MiR-101 expression was significantly decreased in tumors in comparison with normal gastric mucosas (P<.0001). In 65% of the analyzed GC cases, miR-101 downregulation was caused by deletions and/or microdeletions at miR-101-2 locus. EZH2 overexpression and consequent loss/aberrant E-cadherin expression was found in concomitance with miR-101 downregulation in 41% of the analyzed GC cases. This occurred preferentially in cases retaining allele(s) untargeted by classical CDH1 inactivating mechanisms. MiR-101 gain of function experiments or direct inhibition of EZH2, led to a strong depletion of endogenous EZH2 protein and consequent rescue of functional E-cadherin at the cell membrane, mimicking results obtained with clinical GC samples. Conclusions: Deletions and/or microdeletions at miR-101-2 locus underlying mature miR-101 downregulation and consequent EZH2 overexpression represented a novel cascade of genetic events leading to E-cadherin disruption, preferentially affecting the intestinal-type of GC. In the present study, 37 primary GCs and a pool of 10 normal gastric mucosas were used to acquire the expression of 703 known human mature miRNAs deposited in the Sanger miRBase Sequence Database, Release 10.0 (http://microrna.sanger.ac.uk), as well as 393 novel human miRNAs discovered through deep sequencing and validated by qRT-PCR and array profiling (NCodeM-bM-^DM-" Human miRNA microarray probe set V3 from Invitrogen). The 10 normal gastric mucosa RNA samples were pooled to obtain the normal gastric reference sample, which was labelled and hybridised four times to check arrays' reproducibility.

Project description:Gastric cancer (GC) is among the most aggressive malignancy affecting the world population. With almost a million cases remains in fifth position in incidence, while reaching the third position in mortality. The progression of GC is slow with several prolonged and sequential precancerous stages, including chronic gastritis, intestinal metaplasia, dysplasia and finally gastric cancer. Here we used the iTRAQ chemistry in combination with high-resolution mass spectrometry analysis to describe, from the proteomics point of view, the progression of the GC disease. Tissue samples from three stages: chronic gastritis, intestinal metaplasia and gastric adenocarcinoma, were selected for the quantitative proteomics analysis. From four independent replicates we identified and reported quantitative data for 3,914 different proteins with at least two unique peptides confidently quantified in all replicates. We uncovered pathways and processes dysregulated between the different stages. The initial transformation is characterized by the down-regulation of ribosomes and the protein processing in the endoplasmic reticulum, while overexpressing cell survival pathway and proteins such as GSTP1 and EPCAM. The transformation to GC involved the activation of DNA replication and Spliceosome pathways, overexpression of proteins supporting high rates of proliferation such as NPM1. In GC SIRT3 and SIRT5 were down-regulated, which correlated with the impairment of the mitochondrial pathways and overexpression of enzymes supporting the glycolytic phenotype such as HK3 and PCK2. Several proteins found dysregulated between stages of the progression of GC has potential to be used as specific biomarkers and/or targets for therapeutic treatment.

Project description:In this study we performed RNA-seq analysis of gastric corpus biopsies to study transcriptional changes during early gastric carcinogenesis. We included patients with non-atrophic gastritis, with intermediate and extensive corpus atrophy, and patients with intestinal metaplasia. We also included a control group of H. pylori-negative subjects. All subjects were from Nicaragua, which has a population of high gastric cancer risk. Total RNA samples were treated with RiboZero Magnetic (Human/Mouse/Rat) Kit (Epicentre Biotechnologies) to deplete rRNA and the cDNA libraries were prepared using ScriptSeqTM v2 RNA-Seq Library Preparation Kit (Epicentre). Sequencing was performed on the Illumina HiScan2500 platform, 2*100bp reads.

Project description:Forkhead box (Fox) proteins constitute an evolutionarily conserved family of transcriptional regulators whose deregulations lead to tumorigenesis. However, their regulation and function in gastric cancer are unknown. Promoter hypermethylation occurs during Helicobacter pylori (H pylori)-induced gastritis, but whether the deregulated genes contribute to the multi-step gastric carcinogenesis remains unclear. FOXD3 was found to be hypermethylated in a mouse model of H pylori infection and possess tumor-suppressive functions in gastric cancer cell lines. In order to characterize the direct targets of FOXD3 that confer its actions, we performed ChIP-chip in N87 gastric cancer cell line which express low level of FOXD3 in the nuclei of a sub-population of cells. Promoter hypermethylation occurs during Helicobacter pylori (H pylori)-induced gastritis, but whether the deregulated genes contribute to the multi-step gastric carcinogenesis remains unclear. We used MethylCap-microarray to identify hypermethylated genes in a mouse model of H pylori infection. human Samples: Human gastric tumor cell line, N87 was grown in RPMI1640 supplemented with 10% fetal bovine serum. ChIP assays were performed using anti-FOXD3 antibody. The immunoprecipitated-FOXD3 and -IgG DNA were used to probe the Agilent human ChIP-chip arrays. mouse Samples: Two-condition experiment, H pylori-infected vs. control gastric tissues. 2 dye-swap replicates.

Project description:Copy number variation profiling of gastric tissues comparing gastric cancer tissues with matched adjacent noncancerous tissues. Goal was to determine the effects of chromosomal imbalances on gene expression and carcinogenesis or progression. 27 pairs of gastric tissues: gastric cancer tissues vs. matched adjacent noncancerous tissues.