Project description:In this study, we used single-cell RNA sequencing (scRNA-seq) to further elucidate the composition of the gastric cancer and adjacent normal tissue microenvironment and found that TNF and ACTG1 may be key regulators of regulatory T cells (Tregs) in gastric cancer. A total of seven cell types were identified, including B cells, T cells, NK cells, mast cells, fibroblasts, endothelial cells, and epithelial cells. T cells were further divided into 8 subgroups. Among them, Tregs showed the greatest difference between GC and adjacent normal tissues. Next, we clarified the function and signaling pathway of Tregs in the GC tumor microenvironment, obtained the key regulatory proteins TNF and ACTG1, and explored their clinical significance and possible effects on Tregs in the GC tumor microenvironment. This scRNA-seq study may reveal the composition of tumor microenvironment and clarify the role of Tregs in the development of gastric cancer, providing new methods for GC treatment.

Project description:Profiling of circular RNAs in gastric cancer tissues and adjacent normal tissues

Project description:This is a commercially available Affymetrix chip from 16 pairs of gastric cancer and corresponding adjacent normal tissues, used for screening differentially expressed genes associated with gastric cancer.

Project description:Purpose: To investigate the role and mechanism of circRNAs in gastric cancer. Methods: RNA-seq of ribosomal RNA-depleted total RNA and qRT-PCR were performed to screen differential expressed circRNAs between paired gastric cancer tissues and adjacent normal tissues. Results: A total of 57623 distinct circRNAs were identified in these samples, and 35120 of these circRNAs contained at least two independent back-spliced reads in at least two samples. Compared with circBase, we found that there were 29007 matched circRNAs and 28616 novel circRNAs in our study.

Project description:Comparing to matched normal mucosa, WTX was lost in most of human gastric cancers (Zhang et al., 2016). We analyzed the microRNA expression profiling among WTX low human colorectal cancer tissues and matched adjacent WTX high normal colorectal mucosa. The aimed to identify the unique signature of miRNAs which related to WTX loss in human colorectal cancers.

Project description:Gastric cancer is one of the most common malignant tumors. Asia has a high incidence of gastric cancer globally. South Korea, Mongolia, Japan and China are the four countries with the highest incidence of gastric cancer in the world. Gansu province in China has the estimated age-standardized incidence rates and mortality rates by Chinese standard population of 62.34/100,000 and 36.94/100,000, respectively, in 2012, which are much higher than the average level of China (22.06/100,000 and 15.16/100,000) in the same year. As a high incidence area of gastric cancer in China, Wuwei city in Gansu province has the prevalence of gastric cancer almost 5 times higher than the average level nationwide. In this study, the cancer tissues and matched adjacent normal mucosa tissues of 5 patients with early gastric cancers who were treated with ESD in Gansu Wuwei Tumor Hospital and the First Hospital of Lanzhou University were collected. All of the patients are from Gansu, China. MicroRNA array was used to find the differences in microRNAs expression profile between the early gastric cancer tissues and the para-cancer normal tissues. It is expected to explore the reasons of the abnormal high incidence of gastric cancer in Gansu Province, China, from the aspect of microRNAs expression profile characteristics.

Project description:Total RNA was extracted from human gastric cancer tissues (n=4) and matched adjacent normal tissues (n=4) . RNA samples were analyzed by RNA sequencing based on the manufacturer’s protocols. Briefly, Illumina HiSeq 4000 platform was used to sequence the RNA samples for the subsequent generation of raw data. R package was utilized to select lncRNAs with significantly differential expression based on fold change >2 or <1/2, p value <0.05 between human gastric cancer tissues and matched adjacent normal tissues, and the top 10 upregulated lncRNAs were selected for further study.

Project description:We implemented lncRNA microarray analysis in 5 paired gastric cancer tissues and adjacent noncancerous tissues to identify differential expression of lncRNAs and mRNAs in gastric cancer.

Project description:Purpose: To investigate the role and mechanism of mRNAs, long chain non-coding RNAs and circular RNAs in gastric cancer. Methods: RNA-seq of ribosomal RNA-depleted total RNA were performed to screen differential expressed mRNAs, long chain non-coding RNAs between paired gastric cancer tissues and adjacent normal tissues.For the linear RNA was digested with 3 U of RNase R per µg of RNA. Results: A total of 83672 mRNAs, 105998 long chain non-coding RNAs, 25441 distinct circRNAs were identified in these samples, and 13929 of these circRNAs were identified as novel circRNAs.

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.