Background: N6-methyladenosine (m6A) methylation, a well-known modification with new epigenetic functions, has been reported to participate in gastric cancer (GC) tumourigenesis, providing novel insights into the molecular pathogenesis of GC.However, the involvement of Wilms' tumour 1-associated protein (WTAP), a key component of m6A methylation, in GC progression is controversial. Here, we investigated the biological role and underlying mechanism of WTAP in GC.
Methods: We determined WTAP expression using tissue microarrays and The CancerGenome Atlas (TCGA) data set, which was used to construct co-expression networks by weighted gene co-expression network analysis (WGCNA). Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses were performed by Database for Annotation, Visualization and Integrated Discovery (DAVID). CIBERSORT was used to determine WTAP expression in 22 immune cell types.
Results:Wilms' tumour 1-associated protein was highly expressed in GC, which indicated a poor prognosis, and WTAP expression served as an independent predictor of GC survival. By WGCNA, GO, KEGG and core gene survival analyses, we found that high WTAP expression correlated with RNA methylation and that low expression correlated with a high T cell-related immune response. CIBERSORT was used to correlate low WTAP expression with T lymphocyte infiltration.
Conclusion: RNA methylation and lymphocyte infiltration are the main causes of high WTAP expression and poor prognosis, respectively. K E Y W O R D S differentially expressed genes, DNA methylation, gastric cancer, N6-methyladenosine (m6A) methylation, WTAP | 4453 LI et aL.
Oxaliplatin is the first-line regime for advanced gastric cancer treatment, while its resistance is a major problem that leads to the failure of clinical treatments. Tumor cell heterogeneity has been considered as one of the main causes for drug resistance in cancer. In this study, the mechanism of oxaliplatin resistance was investigated through in vitro human gastric cancer organoids and gastric cancer oxaliplatin-resistant cell lines and in vivo subcutaneous tumorigenicity experiments. The in vitro and in vivo results indicated that CD133+ stem cell-like cells are the main subpopulation and PARP1 is the central gene mediating oxaliplatin resistance in gastric cancer. It was found that PARP1 can effectively repair DNA damage caused by oxaliplatin by means of mediating the opening of base excision repair pathway, leading to the occurrence of drug resistance. The CD133+ stem cells also exhibited upregulated expression of N6-methyladenosine (m6A) mRNA and its writer METTL3 as showed by immunoprecipitation followed by sequencing and transcriptome analysis. METTTL3 enhances the stability of PARP1 by recruiting YTHDF1 to target the 3′-untranslated Region (3′-UTR) of PARP1 mRNA. The CD133+ tumor stem cells can regulate the stability and expression of m6A to PARP1 through METTL3, and thus exerting the PARP1-mediated DNA damage repair ability. Therefore, our study demonstrated that m6A Methyltransferase METTL3 facilitates oxaliplatin resistance in CD133+ gastric cancer stem cells by Promoting PARP1 mRNA stability which increases base excision repair pathway activity.
To evaluate the prognostic and molecular mechanisms of sex and racial differences in gastric cancer, data from two large centers were used to retrospectively analyze the survival of gastric cancer patients with regard to sex and racial differences. In examining the molecular mechanism of sex in gastric cancer patients of different races, data from The Cancer Genome Atlas database were used to analyze differentially expressed genes (DEGs), and Gene Ontology (GO) enrichment and DNA methylation analyses were performed. Among White gastric cancer patients, it was found that the survival prognosis for females was better than that for males; conversely, among Chinese patients, males had a better prognosis. For African Americans, sex may have an impact on gastric cancer, but this relationship was unclear. The core DEGs between the different sexes included glycogenin 2 pseudogene 1, ribosomal protein S4 Y-linked 1, taxilin-γ and eukaryotic translation initiation factor 1A X-linked among White patients, and GO enrichment analysis revealed that these genes act mainly through RNA binding and transcription pathways. Among Black patients, core DEGs included DnaJ heat shock protein family (Hsp40) member C5, histone deacetylase 10, neogenin 1 and SMG5 nonsense mediated mRNA decay factor, which are mainly related to pathways of cellular structural changes based on GO enrichment analysis. For Asian patients, core DEGs included zinc finger protein Y-linked, thymosin β4 Y-linked, zinc finger protein 787 and ubiquitously transcribed tetratricopeptide repeat containing, Y-linked, participating in cell surface receptor-associated signal transduction and G-protein coupled receptor protein signaling pathways, according to GO. The expression of different core genes and differences in pathways are likely to be the main causes affecting the variation observed among gastric cancer patients of different races and sexes.
Gastric cancer (GC) is the third leading cause of cancer deaths worldwide. Conventional chemotherapy has been proven useful to only a portion of the patients. Previous developed targeted drugs are more effective and tolerable than conventional drugs. Thus the development of novel drugs targeting markers is an urgent task and the main direction for future research. Ethaselen, an inhibitor of thioredoxin reductase (TrxR), has been considered an important anticancer target drug. Previous studies show that it is effective on treating many kinds of cancers. In this paper, we examined that ethaselen effectively inhibited the growth of gastric cancer cells and promoted apoptosis. Organoids were cultured from patient-derived cells in a three-dimension form which are widely used in cancer research to help us understand cancer cells behavior at the sub-organ level and develop novel drugs. We established a drug testing and screening system using GC-derived organoids by recapitulating tumor microenvironment. We confirmed that the TrxR-targeting ethaselen could be a novel and effective drug for gastric cancer treatment.
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