Development Of Gastric Cancer Research Articles

Intestinal metaplasia key molecules and UPP1 activation via Helicobacter pylori /NF-kB: drivers of malignant progression in gastric cancer

Gastric cancer (GC) remains a significant global health challenge due to its high morbidity and mortality rates. The development of GC is a multi-hit process and the exploration of precancerous lesions is crucial. To elucidate the molecular and cellular dynamics underlying gastric carcinogenesis, we conducted an integrative single-cell RNA sequencing analysis of 26,028 high-quality cells from gastric antral mucosa biopsies across various stages, including non-atrophic gastritis, chronic atrophic gastritis, intestinal metaplasia, and early gastric cancer. By constructing a detailed single-cell atlas, we identified distinct epithelial cell subpopulations and their corresponding molecular signatures. We focused on the biological link between gastric epithelial cells and cancer cells. Notably, we observed that gland mucous cells acquired an intestinal-like stem cell phenotype during metaplasia, with MUC6, MUC2 and OLFM4 emerging as the specific markers for unique endocrine cells in early malignant lesions. Additionally, our analysis highlighted UPP1 as a key oncogene, with its expression progressively increasing from normal epithelial cells to malignant cells. UPP1 upregulation was shown to promote GC cell proliferation and migration, implicating it in the oncogenic process. Further, we explored the impact of Helicobacter pylori infection on gene expression, revealing that Helicobacter pylori infection upregulates UPP1 via the NF-κB pathway. Our cell-cell communication analysis underscored the significant role of the Macrophage migration inhibitory factor pathway in the tumor microenvironment, contributing to GC progression. Various key molecules involved in intestinal metaplasia, along with UPP1 and the Macrophage migration inhibitory factor pathway, collectively illustrate the multifaceted nature and complexity of gastric cancer evolution, highlighting the cumulative impacts that drive tumorigenesis.

A unique Helicobacter pylori strain to study gastric cancer development.

Helicobacter pylori colonizes a majority of the human population worldwide and can trigger development of a variety of gastric diseases. Since the bacterium is classified as a carcinogen, elucidation of the characteristics of H. pylori that influence gastric carcinogenesis is a high priority. To this end, the Mongolian gerbil infection model has proven to be an important tool to study gastric cancer progression. However, only a small number of H. pylori strains have been evaluated in the gerbil model. Thus, to identify additional strains able to colonize and induce disease in this model, several H. pylori strains were used to infect Mongolian gerbils, and stomachs were harvested at multiple timepoints to assess colonization and gastric pathology. The USU101 strain reproducibly colonized Mongolian gerbils and induced gastric inflammation in the majority of the animals 1 month after infection. Adenocarcinoma or dysplasia was observed in the majority of gerbils by 2 months post-infection. To define the contribution of key virulence factors to this process, isogenic strains lacking cagA or vacA, along with restorant strains containing a wild-type (WT) copy of the genes, were studied. The ΔcagA USU101 strain colonized gerbils at levels similar to WT, but did not induce comparable levels of inflammation or disease. In contrast, the ΔvacA USU101 strain did not colonize gerbils, and the stomach pathology resembled that of the mock-infected animals. The restorant USU101 strains expressed the CagA and VacA proteins in vitro, and in vivo experiments with Mongolian gerbils showed a restoration of colonization levels and inflammation scores comparable to those observed in WT USU101. Our studies indicate that the USU101 strain is a valuable tool to study H. pylori-induced disease.IMPORTANCEGastric cancer is the fifth leading cause of cancer-related death globally; the majority of gastric cancers are associated with Helicobacter pylori infection. Infection of Mongolian gerbils with H. pylori has been shown to result in induction of gastric cancer, but few H. pylori strains have been studied in this model; this limits our ability to fully understand gastric cancer pathogenesis in humans because H. pylori strains are notoriously heterogenous. Our studies reveal that USU101 represents a unique H. pylori strain that can be added to our repertoire of strains to study gastric cancer development in the Mongolian gerbil model.

The association between oral microbiome and gastric precancerous lesions.

Gastric precancerous lesions are thought to be precursors in the occurrence and development of gastric cancer through Correa's cascade. Recent studies have investigated the association between the oral microbiome and gastric precancerous lesions. However, there has yet to be a comprehensive synthesis review of the existing literature on the relationship between oral microbiome and gastric precancerous lesions. A systematic review was conducted to characterize the literature on the association between oral microbiome and gastric precancerous lesions. The studies show that oral microbiome is dynamic in individuals with gastric precancerous lesions. Oral-derived microorganisms were colonized in the gastric precancerous lesions. Interactions between oral and gastric microbiomes affect the response of the host immunity. The abnormal proliferation of oral-associated microorganisms may be linked to the reduction of gastric acid. The present review supports the potential association between oral microbiome and gastric precancerous lesions. However, the interactions are complex and multifaceted, which require further investigation.

Multi-omics joint screening of biomarkers related to M2 macrophages in gastric cancer

BackgroundDue to high mortality rate and limited treatments in gastric cancer (GC), call for deeper exploration of M2 macrophages as biomarkers is needed.MethodsThe data for this study were obtained from the Gene Expression Omnibus (GEO) and Genomic Data Commons (GDC). The Seurat package was utilized for single-cell RNA sequencing (scRNA-seq) analysis. FindAllMarkers was used to identify genes highly expressed among different cell subsets. DESeq2 package was leveraged to screen differentially expressed genes (DEGs), while limma package was utilized for identifying differentially expressed proteins (DEPs). Enrichment analyses of the genes were conducted using KOBAS-i database. MultipleROC was applied to evaluate the diagnostic potential of biomarkers, and rms package was utilized to construct diagnostic models. hTFtarget database was utilized to predict potential transcription factors (TFs). Finally, cell-based assays were performed to validate the expression and potential biological functions of the screened key markers.ResultsThis study found that M2 macrophages were enriched in protein, endoplasmic reticulum, and virus-related pathways. A total of 4146 DEGs and 1946 DEPs were obtained through screening, with 254 common DEGs/DEPs. The results of gene function enrichment analysis suggested that it may affect the occurrence and development of GC through DNA replication and cell cycle. This study identified three biomarkers, HSPH1, HSPD1, and IFI30, and constructed a diagnostic model based on these three genes. The AUC value greater than 0.8 proved the reliability of the model. Through screening TFs, SPI1 and KLF5 were found to be the common TFs for the three biomarkers. The expression of the three genes IFI30, HSPD1 and HSPH1 was up-regulated in GC cells, and IFI30 may play a facilitating role in the migration and invasion of GC cells.ConclusionThis study identified three biomarkers and constructed a diagnostic model, providing a new perspective for the research and treatment of GC.

Multi-omics Combined with Machine Learning Facilitating the Diagnosis of Gastric Cancer.

Gastric cancer (GC) is a highly intricate gastrointestinal malignancy. Early detection of gastric cancer forms the cornerstone of precision medicine. Several studies have been conducted to investigate early biomarkers of gastric cancer using genomics, transcriptomics, proteomics, and metabolomics, respectively. However, endogenous substances associated with various omics are concurrently altered during gastric cancer development. Furthermore, environmental exposures and family history can also induce modifications in endogenous substances. Therefore, in this study, we primarily investigated alterations in DNA mutation, DNA methylation, mRNA, lncRNA, miRNA, circRNA, and protein, as well as glucose, amino acid, nucleotide, and lipid metabolism levels in the context of GC development, employing genomics, transcriptomics, proteomics, and metabolomics. Additionally, we elucidate the impact of exposure factors, including HP, EBV, nitrosamines, smoking, alcohol consumption, and family history, on diagnostic biomarkers of gastric cancer. Lastly, we provide a summary of the application of machine learning in integrating multi-omics data. Thus, this review aims to elucidate: i) the biomarkers of gastric cancer related to genomics, transcriptomics, proteomics, and metabolomics; ii) the influence of environmental exposure and family history on multiomics data; iii) the integrated analysis of multi-omics data using machine learning techniques.

Fatty Acid Metabolism Signature Contributes to the Molecular Diagnosis of a Malignant Gastric Cancer Subtype with Poor Prognosis and Lower Mutation Burden.

Gastric cancer (GC) is a common gastrointestinal tumor with high morbidity and mortality. Fatty acid metabolism (FAM) contributes to GC development. Patents have been issued for the use of compositions comprising fatty acid analogues for the treatment of many clinical conditions. However, its clinical significance and its relationship with tumor-related mutations have not been thoroughly discovered. This study was conducted to analyze and explore FAM-related genes' molecular characteristics, prognostic significance, and association with tumor- related mutations. The gastric adenocarcinoma's transcriptome, clinical data, and tumor mutation load (TMB) data were downloaded from TCGA and GEO databases. The differentially expressed FAM genes (FAM DEGs) between cancer and control samples were screened, and their correlation with TMB and survival was analyzed. A PPI network of FAM DEGs was constructed, and a downscaling clustering analysis was performed based on the expression of the FAM DEGs. Further immuno- infiltration and GO/KEGG enrichment analyses of the identified FAM clusters were performed to explore their heterogeneity in biological functions. The effects of FAM score and gastric cancer (STAD) on TMB, MSI, survival prognosis, and drug sensitivity were jointly analyzed, and finally, a single-gene analysis of the obtained core targets was performed. Through differential analysis, 68 FAM DEGs were obtained, and they were highly associated with STAD tumor mutation load. In addition, a high FAM DEGs CNV rate was observed. The PPI network showed a complex mutual correlation between the FAM DEGs. Consensus clustering classified the patients into three clusters based on the FAM DEGs, and the clusters presented different survival rates. The GSVA and immune infiltration analysis revealed that metabolism, apoptosis, and immune infiltration-related pathways were variated. In addition, FAM genes, STAD prognostic risk genes, and PCA scores were closely associated with the survival status of STAD patients. FAM score was closely correlated with STAD TMB, MSI, and immunotherapy, and the TMB values in the low FAM score group were significantly higher than those in the high FAM score group. Finally, combining the above results, it was found that the core gene PTGS1 performed best in predicting STAD survival prognosis and TMB/MSI/immunotherapy. Fatty acid metabolism genes affect the development of gastric adenocarcinoma and can predict the survival prognosis, tumor mutational load characteristics, and drug therapy sensitivity of STAD patients, which can help explore more effective immunotherapy targets for GC.

The role of 1400 plasma metabolites in gastric cancer: A bidirectional Mendelian randomization study and metabolic pathway analysis.

While observational studies have illustrated correlations between plasma metabolites and gastric cancer (GC), the causal association between the 2 is still unclear. Our study aims to delineate the bidirectional relationship between plasma metabolites and GC and find potential metabolic pathways. We undertook a bidirectional 2-sample Mendelian randomization (MR) analysis to investigate the causal relationship, specificity, and direction of association between 1400 plasma metabolites and GC. The GWAS data for metabolites was obtained from a cohort of 8299 European individuals. And the GC's GWAS data was from FinnGen Consortium with 2384 European individuals, and the GWAS catalog with 1029 European ancestry cases for validation. Causal estimates were primarily calculated by the inverse-variance weighted (IVW) method. To ensure robustness, we performed comprehensive sensitivity analyses to assess heterogeneity and address concerns regarding horizontal pleiotropy. We validated the forward relationship between metabolites and GC from another database and implemented meta-analysis. Furthermore, we conducted metabolic enrichment and pathway analysis of these causal metabolites using MetaboAnalyst5.0/6.0 with the database of Kyoto Encyclopedia of Genes and Genomes. All statistical analysis was carried out using R software. Metabolites like 2s, 3R-dihydroxybutyrate, 4-acetamidobutanoate, ferulic acid 4-sulfate and methyl indole-3-acetate was proven positively linked with the development of GC. Asparagine, glucose to maltose ratio, glycohyocholate, Gulonate levels, linoleoyl ethanolamide and Spermidine to (N(1) + N(8))-acetylspermidine ratio was proven to be negatively associated with GC. Moreover, linoleic acid, histidine, glutamine, bilirubin, Succinate to proline ratio were found to be potentially linked to the development of GC. Furthermore, our analysis identified 18 significant metabolic pathways, including Arginine and proline metabolism (P < .009) and Valine, leucine, and isoleucine biosynthesis (P < .031). Our findings offer evidence supporting potential casual relations between multiple plasma metabolites and GC. These findings may offer great potential for future application of these biomarkers in GC screening and clinical prevention strategies.

Exploring the Interplay Between Cancer, Health, and Inflammation

Cancer is a complex disease influenced by various factors, including DNA damage, growth signals, and inflammation. Although inflammation has commonly not been considered carcinogenic, increasing evidence indicates its substantial involvement in the onset and progression of cancer, especially in the presence of chronic microbial infections. This review thoroughly analyzes the complex relationship between cancer, health, and inflammation by introducing pathological and physiological features of inflammation. The study explores the various factors that might enhance inflammation, including infections and para-inflammation caused by tissue stress. It will also explore the changing comprehension of microorganisms about health and illness, clarifying their possible influence on the development of several malignancies, including colon, pancreatic, gastric, and prostate cancers. In addition, the study emphasizes the development of new therapy approaches that specifically target chronic inflammations and their associated cancers. This review seeks to enhance the comprehension of the intricate correlation between cancer, inflammation, and human health by combining existing research.

IL-17 signaling protects against Helicobacter pylori-induced gastric cancer

ABSTRACT Helicobacter pylori infection is the predominant risk factor for the development of gastric cancer. Risk is enhanced by specific H. pylori virulence factors, diet, and the inflammatory response. Chronic activation of T helper (Th) 1 and Th17 pathways contributes to prolonged inflammation; yet, higher expression of IL-17 receptor (IL-17RA) is a favorable prognostic marker for survival after gastric cancer diagnosis. The protective impact of IL-17RA signaling is not understood. To investigate if IL-17RA signaling protects during H. pylori-induced carcinogenesis, the transgenic InsGAS tg/tg mouse, which is prone to H. pylori-induced gastric cancer, was utilized. InsGAS tg/tg mice and InsGAS tg/tg Il17ra -/- mice were infected with a cag type 4 secretion system (T4SS) positive H. pylori strain for up to 6 months. Six weeks post-infection, IL-17RA deficiency led to increased bacterial burden, increased gastritis, and development of lymphoid follicles. Increased inflammation was associated with heightened cellular proliferation and earlier loss of parietal and chief cells in InsGAS tg/tg Il17ra -/- mice. Gastric cancers developed more frequently by 3- and 6-months post-infection in H. pylori-infected InsGAS tg/tg Il17ra -/- mice compared to InsGAS tg/tg mice. Chronic inflammation was exacerbated with IL-17RA deficiency, characterized by elevated Th1/Th17 cytokines, increased B cell infiltration, and enhanced IgA production, despite reduced expression of the polymeric immunoglobulin receptor. Further, paragastric lymph nodes of InsGAS tg/tg Il17ra -/- mice were enlarged relative to controls and displayed altered gene expression profiles. Increased inflammation was accompanied by a significant increase in Cybb expression, which encodes NADPH oxidase 2, suggesting that increased oxidative damage may occur in the absence of IL-17RA. Further, there is increased phosphorylation of histone 2AX in IL-17RA deficient mice, indicating that the DNA damage response is highly activated. These data suggest that IL-17RA signaling activates a protective pathway to prevent excessive inflammation which otherwise can lead to increased oxidative stress, DNA damage, and drive gastric carcinogenesis after H. pylori infection.

A comprehensive analysis of gene expression and the immune landscape in gastric cancer through single-cell and multi-omics approaches

Gastric cancer (GC) is a common malignant tumor worldwide, characterized by complex biological processes. The distribution of various cell types and gene expression profiles in the GC microenvironment remains unclear. This study uses single-cell RNA sequencing to explore gene expression patterns and identify differentially expressed genes in GC samples, offering new insights into cellular diversity and potential molecular mechanisms. We conducted temporal and clustering analyses with single-cell sequencing, followed by Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses to clarify their functions. Using machine learning, we identified relevant genes to create highly accurate prediction models. Additionally, ssGSEA analysis provided detailed insights into the immunosuppressive tumor microenvironment, revealing complex gene expression interactions and diverse immune infiltrates in cancer. Correlation analysis highlighted TIMP1 as having significant prognostic value across different immune cell subtypes. Single-cell RNA sequencing revealed the cellular landscape and gene expression profiles of the GC microenvironment, offering crucial data on how cell heterogeneity is regulated in relation to the tumor microenvironment. Moreover, new insights into the expression levels of AGT, INHBA, and TIMP1 showed distinct sex-biased gene functions within the tumor microenvironment. These findings enhance our understanding of the molecular mechanisms associated with gastric cancer development and may lay the groundwork for identifying novel therapeutic targets and diagnostic strategies.

Onco-metabolic surgery: the bridge between curative resection of gastric cancer and the remission of type 2 diabetes mellitus

The close relationship between gastric cancer (GC) and type 2 diabetes mellitus (T2DM) has garnered significant attention. On one hand, T2DM may play a role in the development and progression of GC, correlating with poor patient outcomes. On the other hand, after radical surgery for GC, T2DM can be effectively managed, potentially improving tumor prognosis. In recent years, bariatric and metabolic surgery (BMS) has revolutionized T2DM treatment for obese and overweight patients. Comparative analyses reveal similarities between surgical approaches for gastric cancer and BMS, leading to the emergence of the onco-metabolic surgery (OMS) concept, which suggests that radical tumor resection and T2DM remission in GC patients can be potentially achieved through a single procedure. However, there are notable differences between OMS and BMS, including target populations, surgical details, and perioperative management. Therefore, optimizing the application of the OMS concept in GC patients holds significant clinical importance. This article provides a review to facilitate the better implementation of this concept in practice.

CEP192 overexpression is correlated with poor prognosis of gastric cancer and promotes gastric cancer cell proliferation by regulating PLK1/CDK1/Cyclin B1 signaling

To investigate the correlation of CEP192 expression with prognosis of gastric cancer and biological behaviors of gastric cancer cells. Public databases and clinical tissue samples were used to examine CEP192 expression level in gastric cancer. Kaplan-Meier survival curves, univariate and multivariate Cox regression analyses, ROC curves and bioinformatics analyses were used to explore the risk factors affecting the 5-year postoperative survival, the correlation of CEP192 expression level with the patients' survival, and its biological role in gastric cancer development. In gastric cancer MGC-803 cells with lentivirus-mediated CEP192 interference or overexpression, cell proliferation and expressions of PLK1, CDK1 and Cyclin B1 were examined with CCK-8 assay and Western blotting. The effects of CEP192 knockdown or overexpression on tumorigenesis of MGC-803 cells was observed in nude mice, and the expressions of PLK1, CDK1 and Cyclin B1 in the xenografts were detected. CEP192 was highly expressed in gastric cancer and associated with poor prognosis of the patients (P < 0.05). High expression of CEP192, CEA ≥5 ng/mL, CA199 ≥37 IU/mL, T3-4 stage, and N2-3 stage were independent risk factors affecting the patients' 5-year postoperative survival (P < 0.05). Bioinformatics analyses suggested that CEP192 was involved in several vital biological processes and positively regulated cell cycle progression. In MGC-803 cells, CEP192 knockdown significantly inhibited cell proliferation and lowered the expression levels of PLK1, CDK1, and Cyclin B1, while its overexpression produced the opposite effects. In the nude mouse models, CEP192 knockdown resulted in lowered tumorigenic potential of MGC-803 cells and decreased protein levels of PLK1, CDK1, and Cyclin B1 in the xenografts, while CEP192 overexpression in MGC-803 cells caused the opposite changes. CEP192 overexpression is correlated with unfavorable outcomes of gastric cancer patients and promotes gastric cell proliferation by regulating the key proteins during G2/M phase transition.

Epstein-Barr Virus and &lt;i&gt;Helicobacter pylori&lt;/i&gt; as Two Main Risk Factors in Gastric Cancer

Microbial and viral pathogens have emerged as pivotal agents in oncogenesis. Research conducted in the last twenty years has significantly enhanced our comprehension of the cancer-causing capabilities of infectious agents. An illustrative instance is gastric cancer (GC), which is closely associated with Helicobacter pylori (H. pylori) and Epstein-Barr virus (EBV) infections. Despite concerted endeavors, GC remains a serious clinical challenge ranking as the fifth most commonly diagnosed cancer worldwide. In 2020, an estimated 768,793 people died from GC in the world. The pathogenicity island (PAI), cagA protein, VacA and other virulence factors in H. pylori and several latency factors such as EBNA-1, LMP-1 and LMP2A in Epstein-Barr virus as well as pattern of gene methylation and EBV and H. pylori co-infection are shown as the main causes of pathogen-related GC. The unique molecular and clinical characteristics associated with EBV and H. pylori in GC, highlight the importance of further understanding their respective roles in GC development and progression. This knowledge may inform future preventive and therapeutic strategies targeting these infectious agents in the context of GC. This review aims to elucidate the mechanisms underpinning EBV and H. pylori-induced carcinogenesis in GC.

OS EFEITOS DA TERAPIA DE ERRADICAÇÃO DO HELICOBACTER PYLORI SOBRE A INCIDÊNCIA DO ADENOCARCINOMA GÁSTRICO

INTRODUCTION: Helicobacter pylori is the major risk factor for the development of gastric adenocarcinoma, and may increase its risk by two times. Thus, in the last twenty years, many studies have investigated whether eradicating this agent reduces the risk of gastric cancer. However, the results were initially inconsistent. Therefore, this systematic review was carried out to identify the impact of H. pylori eradication on the incidence of gastric adenocarcinoma. METHOD: Using the Pubmed, Cochrane, Medline, and LILACS databases, a systematic review of studies involving H. pylori eradication treatment and the incidence of gastric adenocarcinoma was carried out from 2019 to 2024. Meta-analyses, reviews, systematic reviews, clinical trials, and randomized controlled trials in English, involving humans, were included in the review. RESULTS: 12 studies were included. All of them showed that the eradication of H. pylori reduced the incidence of gastric adenocarcinoma in individuals without preneoplastic lesions, so that this decrease ranged from 43% to 76% among the articles (CI=95%). DISCUSSION: Gastric adenocarcinoma is unlikely to develop in those not infected with H. pylori. Thus, investigating the effects of the eradication of this bacterium is of great interest to public health. Many factors interfere with the relationship between H. pylori and host and, therefore, with the development of gastric cancer. To mention, the socioeconomic condition and specific virulence factors. Another challenge in the issue of H. pylori is the treatment of the infection, due to the variety of strains and antimicrobial resistance, making it difficult to eradicate. In countries where H. pylori infection and gastric cancer are very prevalent, strategies aimed at analyzing the susceptibility of certain strains to antimicrobials and identifying which genes are responsible for this resistance may be the key to controlling the infection and, therefore, to reducing gastric cancer cases. CONCLUSION: Eradication of H. pylori decreases the incidence of gastric adenocarcinoma. Thus, screening and treating these infections in populations with a high prevalence of H. pylori is beneficial to prevent gastric cancer, with public health in mind.

HLA-G high-expressor 3’UTR markers are linked to gastric cancer development and survival

Gastric cancer ranks fifth in both world prevalence and lethality, with a 5-year survival of less than 30%. HLA-G, a non-classical class I HLA gene, has emerged as a potential marker for cancer susceptibility and prognosis due to its immunomodulatory properties. Its level of expression is regulated by polymorphisms in the 3’ untranslated region (3’UTR) polymorphisms, which form various combined haplotypes (UTR-1 to -9). In this study, we examined HLA-G 3’UTR polymorphisms in paired tissue samples from 111 patients with gastric adenocarcinoma and 119 healthy controls. Polymorphism analysis was performed using PCR and Sanger sequencing, followed by statistical analysis using SNPStats software. Survival analysis was conducted using Kaplan–Meier curves and multivariate Cox regression models. High-expressor HLA-G 3’UTR haplotypes (UTR-1 and UTR-6) were significantly associated with gastric cancer susceptibility, indicating a potential role in tumor immune evasion. Additionally, the 14 base pair insertion/deletion polymorphism (14 bp I/D) emerged as a prognostic marker, with D/D genotype carriers showing lower survival rates compared to I/D and I/I genotype carriers. Our study highlights the clinical relevance of HLA-G polymorphisms in gastric cancer, suggesting their potential as prognostic markers and therapeutic targets. Further elucidation of HLA-G-related pathways could lead to personalized treatment strategies and improved patient outcomes in gastric cancer.

High neutrophil-to-lymphocyte ratio at Helicobacter pylori eradication increases the risk of eradication failure and post-eradication gastric cancer

Introduction Vonoprazan has been known to have a high Helicobacter pylori (H. pylori) eradication rate since its launch in 2015. Yet, the risk factors for eradication failure and development of post-eradication gastric cancer (GC) using VPZ regimen remain unclear. Methods This single-center cohort study included 934 consecutive patients who underwent H. pylori eradication using VPZ between February 2015 and June 2017 and were followed up for five years by the end of 2022. We examined several indicators of systemic immune, inflammatory, and nutritional status at the time of eradication to identify those indicators could predict eradication success, risk of post-eradication GC development, and long-term prognosis. Results The successful eradication rates were 92.6% (intention-to-treat) and 98.7% (per-protocol). Multivariate analysis showed that only a high peripheral blood neutrophil-to-lymphocyte ratio (NLR) was significantly associated with eradication failure. The 5-year GC incidence rate was 1.67%, and all GCs were stage IA. The mean (standard deviation [SD]) time from eradication to diagnosis was 40.5 (6.1) months. Multivariate analysis showed that high NLR and history of GC and hypertension were significantly associated with GC development. Patients with elevated NLR post-eradication had a higher risk of newly developed GC. Twelve patients died during the study period, and a high NLR was associated with a significantly higher mortality rate. Conclusions NLR has the potential to be a biomarker that predicts the failure of eradication and development of post-eradication GC. High NLR was also associated with poor long-term prognosis after H. pylori eradication.

The LINC01094/miR-545-3p/SLC7A11 Signaling Axis Promotes the Development of Gastric Cancer by Regulating Cell Growth and Ferroptosis.

This study aimed to investigate the role and mechanism of action of LINC01094 in the development of gastric cancer (GC). The expression levels of LINC01094 in GC patients and healthy individuals were analyzed online using the Cancer Genome Atlas database. Quantitative real-time polymerase chain reaction (qRT-PCR) and Western blot analyses were performed to determine the expression of LINC01094/miR-545-3p/SLC7A11 in GC tissues and cells. Functional experiments (MTT assay, colony formation assay, and flow cytometry) were conducted to assess the effect of LINC01094 and miR-545-3p on cell proliferation, viability, apoptosis, cell cycle, and reactive oxygen species. Correlations between LINC01094 and miR-545-3p, as well as SLC7A11, were analyzed and validated using the dual-luciferase reporter assay and RNA immunoprecipitation. The levels of Fe2+, malondialdehyde, and glutathione in the cells were measured biochemically, and the protein expression levels of Bcl-2, cleaved caspase3, Cyclin D1, and p21 were detected by Western blotting. LINC01094 was significantly upregulated in the GC tissues and cells with a targeting relationship with miR-545-3p; the expression levels of LINC01094 and miR-545-3p were negatively correlated. Knockdown of LINC01094 notably inhibited the proliferation and viability of GC cells and promoted cell ferroptosis, which, however, was abrogated by the silencing of miR-545-3p. These findings indicate that miR-545-3p could target and positively correlate with SLC7A11 expression. Additionally, LINC01094 could promote GC cell progression and affect cellular ferroptosis by regulating the miR-545-3p/SLC7A11 signaling axis.

OGC SO46 - Gastric Cancer: A Comprehensive Literature Review

Abstract Background Gastric cancer stands as a significant global health concern with high mortality rates urging urgent attention. This article comprehensively explores the epidemiology, anatomy, risk factors, pathophysiology, clinical presentation, diagnosis, staging, treatment modalities, prevention strategies, and survival rates associated with gastric cancer. Notably, Helicobacter pylori infection, dietary choices, and intricate stomach anatomy play pivotal roles in disease development. Early detection, utilizing staging, grading, and genetic testing for personalized treatment approaches is emphasized. Treatment modalities encompass surgery, chemotherapy, radiation therapy, targeted therapy, and immunotherapy. Prevention strategies involve lifestyle changes, and genetic counseling. Survival rates vary by stage, highlighting the need for individualized care. Method This comprehensive review was conducted by systematically analyzing a wide range of published literature on gastric cancer. The search strategy involved utilizing electronic databases such as PubMed, Google Scholar, and Scopus, with specific keywords including "gastric cancer," "stomach cancer," "epidemiology," "anatomy," "risk factors," "pathophysiology," "diagnosis," "treatment modalities," "prevention," and "survival rates." Results Risk Factors: Factors such as Helicobacter pylori infection, dietary choices, tobacco use, and genetic predispositions contribute to gastric cancer risk. Pathophysiology: Genetic alterations, chronic inflammation, and dysregulated signaling pathways drive the development of gastric cancer. Clinical Presentation: Symptoms vary &amp; diagnosis involves a combination of methods, including endoscopy and molecular profiling. Treatment Modalities: Treatment options include surgery, chemotherapy, radiation therapy, targeted therapy, and immunotherapy. Prevention Strategies: Prevention efforts focus on minimizing risk factors through lifestyle changes, screening, and genetic counseling. Survival Rates: Survival rates vary significantly by stage, ranging from 90-95% for stage 0 to less than 5% for stage IV Conclusion The intricate anatomy of the stomach plays a crucial role in disease localization, staging, and treatment planning, with genetic mutations and inflammation central to the pathophysiology. Early detection is underscored through clinical presentation and diagnosis processes, utilizing staging, grading, and genetic testing for personalized treatment approaches, including surgery, chemotherapy, radiation therapy, targeted therapy, and immunotherapy. Prevention strategies emphasize lifestyle changes and screening, while survival rates vary by stage, underscoring the need for individualized care. In conclusion, addressing gastric cancer requires a collaborative effort to reduce its impact and enhance outcomes on a global scale.

Immune cell changes in Helicobacter pylori infection-induced glandular epithelial cell damage of the gastric mucosa

Objective The purpose of this study was to investigate the relationship between Helicobacter pylori (H. pylori) infection-induced changes in gastric mucosal immune cells and glandular epithelial cell damage and the histopathological characteristics of these changes. Methods We performed a detailed histomorphometry and immunohistochemical analysis of a total of 1635 H. pylori-infected gastric mucosal specimens. Results Stage-wise features were as follows: Early stage of infection: H. pylori was colonized in the mucous layer, and very few neutrophils were visible in the layer. Gastric surface epithelial cell infection stage: H. pylori specifically and selectively adhered to the cytoplasm of the surface mucous cells, with the presence of a small number of neutrophils, eosinophils, and lymphocytes infiltration, which is termed early immune response. Compensatory mucous neck cell hyperplasia stage: proliferation of stem cells in the deep gastric pit and infiltration of a large number of lymphocytes in the superficial layer of lamina propria were observed, which is termed immune cell mobilization counterinsurgency. Lamina propria lesion stage: excessive upward migration of the proliferative area. Infiltration of a large number of lymphocytes, plasma cells, monocytes, macrophages, and other immune cells was observed in the whole layer of the gastric mucosa, which is termed automatic replication of immune cells. Abnormal proliferative transformation stage: presence of intranuclear milky globular body cells or signet-ring cell-like heterotypic cells at the junction of the gastric pit and the gastric gland, with proliferation of large numbers of immune cells and vacuolar degeneration of immune cells, which is termed the proliferation and degeneration of immune cells. Intraepithelial neoplasia stage: clonal hyperplasia of epithelial cells and immunosuppression. Conclusion For controlling the occurrence and development of gastric cancer and effective immune intervention, it is essential to grasp the relationship between H. pylori infection-induced changes in gastric mucosal immune cells and glandular epithelial cell damage and its histopathological characteristics.

Hua-Zhuo-Jie-Du Decoction Combined with Cisplatin Inhibits the Development of Gastric Cancer Cells by Regulating Immune and Autophagy Signaling.

Host immunity and autophagy of cancer cells markedly impact the development of gastric cancer. Hua-Zhuo-Jie-Du decoction (TDP) has been used in gastritis clinically. This study aimed to evaluate the effects of TDP combined with cisplatin (DDP) on gastric cancer and explore the molecular mechanism. A total of 16 BALB/c nude mice were used to model the SGC7901 cells xenograft and treated with TDP and DDP or both, with the model group as the control. Hematoxylin-Eosin (H&E) and terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick-end labeling (TUNEL) staining were performed, and the expression levels of CD31 and Ki-67 were quantified by immunohistochemistry staining. Additionally, cyclooxygenase (COX)-2, matrix metalloproteinas (MMP)-2, and MMP-9 expression levels were quantified using quantitative real-time PCR (qRT-PCR) and Western blotting (WB). WB was used to determine Cleaved-caspase3, Beclin-1, LC3B, and p-p62 levels. Lastly, flow cytometry was employed to evaluate immune responses in mice. TDP and DDP significantly decreased tumor weight and nuclear division, resulting in loosely distributed cells. Besides, TDP and DDP down-regulated the protein expression levels of Ki-67, CD31, COX-2, MMP-2, and MMP-9, as well as decreased the number of CD4+ IL-17+ cells. Conversely, TDP and DDP up-regulated Cleaved-caspase3 expression and the proportion of CD3+/CD4+ and CD8+/CD3+ cells. Notably, optimal effects were achieved using the combination of DDP and TDP. Furthermore, DDP increased the LCII/LCI ratio and the Beclin-1 levels while down-regulating p62 levels. However, TDP alleviated these effects. These results collectively indicated that the combination of TDP with DDP can inhibit the development of gastric cancer cells by mediating the immune and autophagy signaling pathways.