Warburg phenomenon refers to the development of unique metabolic patterns during the growth of tumor cells. This study stratified gastric cancer into prognostic metabolic subgroups according to changes in gene expressions related to glycolysis and cholesterol synthesis. The RNA-seq expression data, single nucleotide variants (SNV), short insertions and deletions (InDel) mutation data, copy number variation (CNV) data and clinical follow-up information data of gastric cancer tissues were downloaded from The Cancer Genome Atlas (TCGA) database. ConsensusClusterPlus was used to stratify the metabolic subtypes of gastric cancer. Four metabolic subtypes (Cholesterogenic, Glycolytic, Mixed and Quiescent) of gastric cancer were identified, and patients with cholesterogenic tumors had the longest disease-specific survival (DSS). Genome-wide analysis showed that aberrant amplification of TP53 and MYC in gastric cancer was associated with abnormal cholesterol anabolic metabolism. The mRNA levels of mitochondrial pyruvate carriers 1 and 2 (MPC1/2) differed among the four subtypes. Tumors in the glycolytic group showed a higher PDCD1. A genomic signature based on tumor metabolism of different cancer types was established. This study showed that genes related to glucose and lipid metabolism play an important role in gastric cancer and facilitate a personalized treatment of gastric cancer.
Siva-1 is a well-known anti-apoptosis protein that serves a role in multiple types of cancer cells. However, whether Siva-1 affects multidrug resistance via the nF-κB pathway in gastric cancer is currently unknown. The present study aimed to determine the possible involvement of Siva-1 in gastric cancer anticancer drug resistance in vitro. a vincristine (Vcr)-resistant KaTo iii/Vcr gastric cancer cell line with stable Siva-1 overexpression was established. The protein expression levels of Siva-1, nF-κB, multidrug resistance 1 (Mdr1) and multidrug resistance protein 1 (MrP1) were detected via western blotting. The effect of Siva-1 overexpression on anticancer drug resistance was assessed by measuring the 50% inhibitory concentration of KATO III/VCR cells to VCR, 5-fluorouracil and doxorubicin. The rate of doxorubicin efflux and apoptosis were detected by flow cytometry. additionally, colony formation, wound healing and Transwell assays were used to detect the proliferation, migration and invasion of cells, respectively. The results of the current study revealed that the Siva-1-overexpressed KATO III/VCR gastric cancer cells exhibited a significantly decreased sensitivity to VCR, 5-fluorouracil and doxorubicin. The results of flow cytometry revealed that the percentage of apoptotic cells decreased following overexpression of Siva-1. The colony formation assay demonstrated that cell growth and proliferation were significantly promoted by Siva-1 overexpression. additionally, Siva-1 overexpression increased the migration and invasion of KaTo iii/Vcr cells in vitro. Western blot analysis determined that Siva-1 overexpression increased nF-κB, Mdr1 and MrP1 levels. The current study demonstrated that overexpression of Siva-1, which functions as a regulator of Mdr1 and MrP1 gene expression in gastric cancer cells via promotion of nF-κB expression, inhibited the sensitivity of gastric cancer cells to certain chemotherapies. These data provided novel insight into the molecular mechanisms of gastric cancer, and may be of significance for the clinical diagnosis and therapy of patients with gastric cancer.
Previous studies have demonstrated that (D-Ala2, D-Leu5)-enkephalin (DADLE) protects rats from hepatic ischemia/reperfusion (I/R) injury. In the present study, DADLE was also observed to alleviate IR-induced intestinal epithelial cell injury in rats by inhibiting mitogen-activated protein kinase kinase 7 (MKK7)-c-Jun N-terminal kinase (JNK) pathway signaling. To investigate the protective effect of DADLE on hypoxia/reoxygenation injury in rat intestinal epithelial cells, rat intestinal epithelial cells were treated with different concentrations of DADLE, following which the cell survival rate was determined using a tetrazolium (MTT) colorimetric assay, and apoptosis was determined using flow cytometry. To confirm whether the protective effect of DADLE was due to its effect on MKK7-JNK signaling, the phosphorylation levels of MKK7 and JNK were analyzed using western blot analysis following treatment with different concentrations of DADLE. The results demonstrated that, following treatment with DADLE, the survival rate of the rat intestinal cells subjected to I/R-induced injury increased significantly and the apoptotic rate decreased in a concentration-dependent manner. In addition, the levels of phosphorylated MKK7 and JNK decreased in a concentration-dependent manner following treatment with DADLE. Silencing the gene expression of MKK7 using small interfering RNA prior to DADLE treatment resulted in a reduction in the protective effects of DADLE on the rat intestinal epithelial cells subjected to I/R injury. Collectively, the results of the present study demonstrated that the protective effects of DADLE in I/R injury in rat intestinal cells occurred through inhibition of the MKK7-JNK pathway.
Background: Several studies give a superficial description that HEPACAM family member 2 (HEPACAM2) seems to be a prognostic biomarker in colon adenocarcinoma (COAD). While, systematic and in-depth research about diagnostic and prognostic value of HEPACAM2 in COAD patients is lacked. Besides, relationship between HEPACAM2 gene expression levels and immune cell infiltration is unclear. Methods: Firstly, we analyzed the differential expression levels of HEPACAM2 gene and diagnostic value from different databases. Secondly, a cohort of Guangxi COAD patients was established to verify HEPACAM2 expression pattern and diagnostic value. Thirdly, univariate and multivariate survival analysis of the prognostic value of HEPACAM2 gene in patients with COAD was performed. We also utilized joint-effects analysis and comprehensive prognosis analysis to investigate the prognostic value of HEPACAM2 and related genes. Finally, we explored the relationship between HEPACAM2 gene expression levels and immune cell infiltration.Results: In several biological databases, HEPACAM2 mRNA expression level in COAD tumor tissues was significantly lower than that of adjacent normal tissues. The diagnostic ROC curve results indicated that HEPACAM2 gene had a high diagnostic value in COAD. The qPCR verification results in the Guangxi cohort showed that HEPACAM2 expression level in COAD tumor tissues was significantly lower than that of adjacent normal tissues (P<0.001), and the diagnostic value was high in COAD (AUC=0.892). The prognostic value analysis showed that low expression of HEPACAM2 gene had a poorer overall survival (OS) in COAD patients when compared with those with high expression ((P = 0.038, HR (95% CI) = 0.635(0.414-0.976)). Joint-effects analysis and comprehensive prognosis analysis showed that high expression of HEPACAM2 combined with high expression of CLCA1, high expression of REP15, and high expression of B3GNT6 were associated with a better overall survival of COAD.Conclusion: This study suggested that the HEPACAM2 may be a diagnostic and prognostic biomarker for COAD. Besides, HEPACAM2 was involved with immune response progress, Chemokine signaling pathway, Ras signaling pathway and Hematopoietic cell lineage.
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