Your search keyword '"Barrett Esophagus metabolism"' showing total 905 results

1. Regulation of pro-apoptotic and anti-apoptotic factors in obesity-related esophageal adenocarcinoma.

Author

Agrawal S, Podber A, Gillespie M, Dietz N, Hansen LA, and Nandipati KC

Subjects

Humans, Male, Middle Aged, Female, Aged, Gene Expression Regulation, Neoplastic, Adult, NF-kappa B metabolism, Baculoviral IAP Repeat-Containing 3 Protein metabolism, Baculoviral IAP Repeat-Containing 3 Protein genetics, Apoptosis Regulatory Proteins metabolism, Apoptosis Regulatory Proteins genetics, Adenocarcinoma genetics, Adenocarcinoma metabolism, Adenocarcinoma pathology, Esophageal Neoplasms genetics, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Obesity metabolism, Obesity genetics, Obesity complications, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology, Apoptosis genetics

Abstract

Background: Obesity is a risk factor for esophageal adenocarcinoma (EAC). It was reported that obesity -associated inflammation correlates with insulin resistance and increased risk of EAC. The objective of the study is to investigate the role of obesity associated inflammatory mediators in the development of EAC., Methods: We included 23 obese and nonobese patients with EAC or with or without Barrett's esophagus (BE) after IRB approval. We collected 23 normal, 10 BE, and 19 EAC tissue samples from endoscopy or esophagectomy. The samples were analyzed for the expression levels of pro-apoptotic and anti-apoptotic factors, PKC-δ, cIAP2, FLIP, IGF-1, Akt, NF-kB and Ki67 by immunofluorescence and RT-PCR. We compared the expression levels between normal, BE, and EAC tissue using Students' t-test between two groups., Results: Our results showed decreased gene and protein expression of pro-apoptotic factors (bad, bak and bax) and increased expression of anti-apoptotic factors (bcl-2, Bcl-xL) in BE and EAC compared to normal tissues. There was increased gene and protein expression of PKC-δ, cIAP2, FLIP, NF-kB, IGF-1, Akt, and Ki67 in BE and EAC samples compared to normal esophagus. Further, an increased folds changes in mRNA expression of proapoptotic factors, antiapoptotic factors, PKC-δ, IGF-1, Akt, and Ki-67 was associated with obesity., Conclusion: Patients with EAC had increased expression of cIAP2 and FLIP, and PKC-δ which is associated with inhibition of apoptosis and possible progression of esophageal adenocarcinoma., (© 2024. The Author(s).)

Published

2024

2. Stratification of Barrett's esophagus surveillance based on p53 immunohistochemistry: a cost-effectiveness analysis by an international collaborative group.

Author

Menon S, Norman R, Iyer PG, and Ragunath K

Subjects

Humans, Quality-Adjusted Life Years, Precancerous Conditions pathology, Precancerous Conditions diagnosis, Precancerous Conditions genetics, Male, Middle Aged, Esophageal Neoplasms pathology, Esophageal Neoplasms diagnosis, Esophageal Neoplasms genetics, Disease Progression, Female, Aged, Population Surveillance, Cost-Effectiveness Analysis, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus diagnosis, Barrett Esophagus pathology, Barrett Esophagus economics, Tumor Suppressor Protein p53 metabolism, Tumor Suppressor Protein p53 analysis, Cost-Benefit Analysis, Immunohistochemistry economics, Markov Chains, Esophagoscopy economics, Esophagoscopy methods

Abstract

Background: Surveillance of nondysplastic Barrett's esophagus (NDBE) is recommended to identify progression to dysplasia; however, the most cost-effective strategy remains unclear. Mutation of TP53 or aberrant expression of p53 have been associated with the development of dysplasia in BE. We sought to determine if surveillance intervals for BE could be stratified based on p53 expression., Methods: A Markov model was developed for NDBE. Patients with NDBE underwent p53 immunohistochemistry (IHC) and those with abnormal p53 expression underwent surveillance endoscopy at 1 year, while patients with normal p53 expression underwent surveillance in 3 years. Patients with dysplasia underwent endoscopic therapy and surveillance., Results: On base-case analysis, the strategy of stratifying surveillance based on abnormal p53 IHC was cost-effective relative to conventional surveillance and a natural history model, with an incremental cost-effectiveness ratio (ICER) of $8258 for p53 IHC-based surveillance. Both the conventional and p53-stratified surveillance strategies dominated the natural history model. On probabilistic sensitivity analysis, the p53 IHC strategy ($28 652; 16.78 quality-adjusted life years [QALYs]) was more cost-effective than conventional surveillance ($25 679; 16.17 QALYs) with a net monetary benefit of $306 873 compared with conventional surveillance ($297 642), with an ICER <$50 000 in 96% of iterations. The p53-stratification strategy was associated with a 14% reduction in the overall endoscopy burden and a 59% increase in dysplasia detection., Conclusion: A surveillance strategy for BE based on abnormal p53 IHC is cost-effective relative to a conventional surveillance strategy and is likely to be associated with higher rates of dysplasia diagnosis., Competing Interests: The authors declare that they have no conflict of interest., (Thieme. All rights reserved.)

Published

2024

3. Lactate Suppresses Growth of Esophageal Adenocarcinoma Patient-Derived Organoids through Alterations in Tumor NADH/NAD+ Redox State.

Author

Su SH, Mitani Y, Li T, Sachdeva U, Flashner S, Klein-Szanto A, Dunbar KJ, Abrams J, Nakagawa H, and Gabre J

Subjects

Humans, Glycolysis drug effects, Barrett Esophagus metabolism, Barrett Esophagus pathology, Tumor Microenvironment, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Adenocarcinoma metabolism, Adenocarcinoma pathology, Oxidation-Reduction, Organoids metabolism, Organoids drug effects, NAD metabolism, Lactic Acid metabolism, Cell Proliferation drug effects

Abstract

Barrett's esophagus (BE) is a common precancerous lesion that can progress to esophageal adenocarcinoma (EAC). There are significant alterations in the esophageal microbiome in the progression from healthy esophagus to BE to EAC, including an increased abundance of a variety of lactate-producing bacteria and an increase of lactate in the tumor microenvironment, as predicted by metabolic modeling. The role of bacterial lactate in EAC is unknown. Here, we utilize patient-derived organoid (PDO) models of EAC and demonstrate that lactate inhibits the growth and proliferation of EAC PDOs through alterations in the tumor NADH/NAD+ redox state. Further RNA sequencing of EAC PDOs identifies ID1 and RSAD2 as potential regulatory molecules crucial in mediating lactate's ability to suppress glycolysis and proliferation. Gene ontology analysis also identifies the activation of inflammatory and immunological pathways in addition to alterations in the metabolic pathways in EAC PDOs exposed to lactate, suggesting a multi-faceted role for lactate in the pathogenesis of EAC.

Published

2024

4. Predicting Regression of Barrett's Esophagus-Can All the King's Men Put It Together Again?

Author

Tobi M, Khoury N, Al-Subee O, Sethi S, Talwar H, Kam M, Hatfield J, Levi E, Hallman J, Moyer MP, Kresty L, Lawson MJ, and McVicker B

Subjects

Humans, Male, Middle Aged, Colorectal Neoplasms pathology, Colorectal Neoplasms metabolism, Barrett Esophagus pathology, Barrett Esophagus metabolism, Esophageal Neoplasms pathology, Esophageal Neoplasms metabolism

Abstract

The primary pre-neoplastic lesion of the lower esophagus in the vicinity of the gastroesophageal junction (GEJ) is any Barrett's esophageal lesions (BE), and esophageal neoplasia has increased in the US population with predispositions (Caucasian males, truncal obesity, age, and GERD). The responses to BE are endoscopic and screening cytologic programs with endoscopic ablation of various forms. The former have not been proven to be cost-effective and there are mixed results for eradication. A fresh approach is sorely needed. We prospectively followed 2229 mostly male veterans at high risk for colorectal cancer in a 27-year longitudinal long-term study, collecting data on colorectal neoplasia development and other preneoplastic lesions, including BE and spontaneous regression (SR). Another cross-sectional BE study at a similar time period investigated antigenic changes at the GEJ in both BE glandular and squamous mucosa immunohistochemistry and the role of inflammation. Ten of the prospective cohort (21.7%) experienced SR out of a total of forty-six BE patients. Significant differences between SR and stable BE were younger age ( p < 0.007); lower platelet levels ( p < 0.02); rectal p87 elevation in SR ( p < 0.049); a reduced innate immune system (InImS) FEREFF ratio (ferritin: p87 colonic washings) ( p < 0.04). Ancillary testing showed a broad range of neoplasia biomarkers. InImS markers may be susceptible to intervention using commonplace and safe medical interventions and encourage SR.

Published

2024

5. Multifaceted association of overweight and metabolically unhealthy with the risk of Barrett's esophagus in the UK Biobank cohort.

Author

Jung DH, Kim YJ, Koh HB, Son NH, Park JT, Han SH, Yoo TH, Kang SW, Huh CW, and Yun HR

Subjects

Humans, Male, Female, Middle Aged, United Kingdom epidemiology, Risk Factors, Aged, Obesity epidemiology, Obesity complications, Adult, Incidence, Cohort Studies, UK Biobank, Barrett Esophagus epidemiology, Barrett Esophagus metabolism, Overweight epidemiology, Overweight complications, Biological Specimen Banks, Body Mass Index

Abstract

The association of overweight/obesity and metabolically unhealthy (MU) with the risk of developing Barrett's esophagus (BE) remains uncertain. We evaluated whether MU and overweight/obesity are associated with increased BE incidence and whether they have a synergistic impact on BE development. We analyzed the body mass index (BMI) and metabolic indicators at baseline of 402,510 individuals from the UK Biobank with no history of BE. Overweight/obesity and MU were defined as BMI ≥ 25.0 kg/m 2 and presence of ≥ 1 MU indicators, respectively. Accordingly, the participants were categorized into four groups: (1) metabolically healthy non-overweight/obesity (MHNO), (2) metabolically unhealthy non-overweight/obesity (MUNO), (3) metabolically healthy overweight/obesity (MHO), and (4) metabolically unhealthy overweight/obesity (MUO). During a median follow-up of 13.5 years, 6195 (1.5%) individuals were newly diagnosed with BE. Among them, 39,281 (9.8%), 92,000 (22.9%), 25,297 (6.3%), and 245,932 (61.1%) individuals were classified as MHNO, MUNO, MHO, and MUO, respectively. In Cox regression analyses, both MU and overweight/obesity were independently associated with BE incidence. Moreover, BE incidence was significantly higher in the MUNO, MHO, and MUO groups, compared to the MHNO group. MU and overweight/obesity are independent risk factors for BE and have a synergistic effect on BE development., (© 2024. The Author(s).)

Published

2024

6. Hypoxia-inducible factor-1α mediates reflux-induced epithelial-mesenchymal plasticity in Barrett's oesophagus patients.

Author

Zhang Q, Dunbar KB, Odze RD, Agoston AT, Wang X, Su T, Nguyen AD, Zhang X, Spechler SJ, and Souza RF

Subjects

Aged, Female, Humans, Male, Middle Aged, Cell Movement, Esophagitis, Peptic pathology, Esophagitis, Peptic metabolism, Esophagitis, Peptic etiology, Gastroesophageal Reflux metabolism, Gastroesophageal Reflux complications, Gastroesophageal Reflux pathology, MicroRNAs genetics, MicroRNAs metabolism, Vascular Endothelial Growth Factor A metabolism, Zinc Finger E-box-Binding Homeobox 1 metabolism, Zinc Finger E-box-Binding Homeobox 1 genetics, Barrett Esophagus pathology, Barrett Esophagus metabolism, Barrett Esophagus genetics, Epithelial-Mesenchymal Transition, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Proton Pump Inhibitors pharmacology

Abstract

Introduction: Epithelial-mesenchymal plasticity (EMP), the process through which epithelial cells acquire mesenchymal features, is needed for wound repair but also might contribute to cancer initiation. Earlier, in vitro studies showed that Barrett's cells exposed to acidic bile salt solutions (ABS) develop EMP. Now, we have (1) induced reflux oesophagitis in Barrett's oesophagus (BO) patients by stopping proton pump inhibitors (PPIs), (2) assessed their biopsies for EMP and (3) explored molecular pathways underlying reflux-induced EMP in BO cells and spheroids., Methods: 15 BO patients had endoscopy with biopsies of Barrett's metaplasia while on PPIs, and 1 and 2 weeks after stopping PPIs; RNA-seq data were assessed for enrichments in hypoxia-inducible factors (HIFs), angiogenesis and EMP pathways. In BO biopsies, cell lines and spheroids, EMP features (motility) and markers (vascular endothelial growth factor (VEGF), ZEB1, miR-200a&b) were evaluated by morphology, migration assays, immunostaining and qPCR; HIF-1α was knocked down with siRNA or shRNA., Results: At 1 and/or 2 weeks off PPIs, BO biopsies exhibited EMP features and markers, with significant enrichment for HIF-1α, angiogenesis and EMP pathways. In BO cells, ABS induced HIF-1α activation, which decreased miR-200a&b while increasing VEGF, ZEB1 and motility; HIF-1α knockdown blocked these effects. After ABS treatment, BO spheroids exhibited migratory protrusions showing nuclear HIF-1α, increased VEGF and decreased miR-200a&b., Conclusions: In BO patients, reflux oesophagitis induces EMP changes associated with increased HIF-1α signalling in Barrett's metaplasia. In Barrett's cells, ABS trigger EMP via HIF-1α signalling. Thus, HIF-1α appears to play a key role in mediating reflux-induced EMP that might contribute to cancer in BO., Trial Registration Number: NCT02579460., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2024. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2024

7. ISG15/GRAIL1/CD3 axis influences survival of patients with esophageal adenocarcinoma.

Author

McEwen DP, Ray P, Nancarrow DJ, Wang Z, Kasturirangan S, Abdullah S, Balan A, Hoskeri R, Thomas D, Lawrence TS, Beer DG, Lagisetty KH, and Ray D

Subjects

Humans, Male, T-Lymphocytes metabolism, T-Lymphocytes immunology, Female, Gene Expression Regulation, Neoplastic, Barrett Esophagus pathology, Barrett Esophagus genetics, Barrett Esophagus metabolism, Middle Aged, Esophageal Neoplasms genetics, Esophageal Neoplasms mortality, Esophageal Neoplasms pathology, Esophageal Neoplasms metabolism, Esophageal Neoplasms immunology, Adenocarcinoma genetics, Adenocarcinoma mortality, Adenocarcinoma pathology, Adenocarcinoma metabolism, Adenocarcinoma immunology, CD3 Complex metabolism, CD3 Complex genetics, Cytokines metabolism, Ubiquitins metabolism, Ubiquitins genetics

Abstract

Immunosuppression is a common feature of esophageal adenocarcinoma (EAC) and has been linked to poor overall survival (OS). We hypothesized that upstream factors might negatively influence CD3 levels and T cell activity, thus promoting immunosuppression and worse survival. We used clinical data and patient samples of those who progressed from Barrett's to dysplasia to EAC, investigated gene (RNA-Seq) and protein (tissue microarray) expression, and performed cell biology studies to delineate a pathway impacting CD3 protein stability that might influence EAC outcome. We showed that the loss of both CD3-ε expression and CD3+ T cell number correlated with worse OS in EAC. The gene related to anergy in lymphocytes isoform 1 (GRAIL1), which is the prominent isoform in EACs, degraded (ε, γ, δ) CD3s and inactivated T cells. In contrast, isoform 2 (GRAIL2), which is reduced in EACs, stabilized CD3s. Further, GRAIL1-mediated CD3 degradation was facilitated by interferon-stimulated gene 15 (ISG15), a ubiquitin-like protein. Consequently, the overexpression of a ligase-dead GRAIL1, ISG15 knockdown, or the overexpression of a conjugation-defective ISG15-leucine-arginine-glycine-glycine mutant could increase CD3 levels. Together, we identified an ISG15/GRAIL1/mutant p53 amplification loop negatively influencing CD3 levels and T cell activity, thus promoting immunosuppression in EAC.

Published

2024

8. miRNA profiling of esophageal adenocarcinoma using transcriptome analysis.

Author

Corlett R, Button C, Scheel S, Agrawal S, Rai V, and Nandipati KC

Subjects

Humans, Gene Expression Profiling, Transcriptome, Gene Expression Regulation, Neoplastic, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology, Esophageal Neoplasms pathology, Adenocarcinoma pathology, MicroRNAs genetics, MicroRNAs metabolism

Abstract

Esophageal adenocarcinoma (EAC) occurs following a series of histological changes through epithelial-mesenchymal transition (EMT). A variable expression of normal and aberrant genes in the tissue can contribute to the development of EAC through the activation or inhibition of critical molecular signaling pathways. Gene expression is regulated by various regulatory factors, including transcription factors and microRNAs (miRs). The exact profile of miRs associated with the pathogenesis of EAC is largely unknown, though some candidate miRNAs have been reported in the literature. To identify the unique miR profile associated with EAC, we compared normal esophageal tissue to EAC tissue using bulk RNA sequencing. RNA sequence data was verified using qPCR of 18 selected genes. Fourteen were confirmed as being upregulated, which include CDH11, PCOLCE, SULF1, GJA4, LUM, CDH6, GNA12, F2RL2, CTSZ, TYROBP, and KDELR3 as well as the downregulation of UGT1A1. We then conducted Ingenuity Pathway Analysis (IPA) to analyze for novel miR-gene relationships through Causal Network Analysis and Upstream Regulator Analysis. We identified 46 miRs that were aberrantly expressed in EAC compared to control tissues. In EAC tissues, seven miRs were associated with activated networks, while 39 miRs were associated with inhibited networks. The miR-gene relationships identified provide novel insights into potentially oncogenic molecular pathways and genes associated with carcinogenesis in esophageal tissue. Our results revealed a distinct miR profile associated with dysregulated genes. The miRs and genes identified in this study may be used in the future as biomarkers and serve as potential therapeutic targets in EAC.

Published

2024

9. The function and immune role of cuproptosis associated hub gene in Barrett's esophagus and esophageal adenocarcinoma.

Author

Lin K, Hu K, Chen Q, and Wu J

Subjects

Humans, Gene Expression Profiling methods, Shc Signaling Adaptor Proteins genetics, Shc Signaling Adaptor Proteins metabolism, Copper, Adenocarcinoma genetics, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology, Esophageal Neoplasms genetics, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Apoptosis

Abstract

Barrett's esophagus (BE) is a precancerous lesion of esophageal adenocarcinoma (EAC), with approximately 3-5% of patients developing EAC. Cuproptosis is a kind of programmed cell death phenomenon discovered in recent years, which is related to the occurrence and development of many diseases. However, its role in BE and EAC is not fully understood. We used single sample Gene Set Enrichment Analysis (ssGSEA) for differential analysis of BE in the database, followed by enrichment analysis of Kyoto Encyclopedia of Genes and Genomes (KEGG), Gene Ontology (GO) and GSEA, Protein-Protein Interaction (PPI), Weighted Gene Co-expression Network Analysis (WGCNA), Receiver Operating Characteristic Curve (ROC) and finally Quantitative Real Time Polymerase Chain Reaction (qRT-PCR) and immunohistochemistry (IHC) of clinical tissues. Two hub genes can be obtained by intersection of the results obtained from the cuproptosis signal analysis based on BE. The ROC curves of these two genes predicted EAC, and the Area Under the Curve (AUC) values could reach 0.950 and 0.946, respectively. The mRNA and protein levels of Centrosome associated protein E (CENPE) and Shc SH2 domain binding protein 1 (SHCBP1) were significantly increased in clinical EAC tissues. When they were grouped by protein expression levels, high expression of CENPE or SHCBP1 had a poor prognosis. The CENPE and SHCBP1 associated with cuproptosis may be a factor promoting the development of BE into EAC which associated with the regulation of NK cells and T cells.

Published

2023

10. Ectopic expression of HNF4α in Het1A cells induces an invasive phenotype.

Author

Grimaldos Rodriguez C, Rimmer EF, Colleypriest B, Tosh D, Slack JMW, and Jungwirth U

Subjects

Humans, Caco-2 Cells, CDX2 Transcription Factor genetics, CDX2 Transcription Factor metabolism, Ectopic Gene Expression, Metaplasia, Phenotype, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology, Carcinoma, Squamous Cell

Abstract

Barrett's oesophagus (BO) is a pathological condition in which the squamous epithelium of the distal oesophagus is replaced by an intestinal-like columnar epithelium originating from the gastric cardia. Several somatic mutations contribute to the intestinal-like metaplasia. Once these have occurred in a single cell, it will be unable to expand further unless the altered cell can colonise the surrounding squamous epithelium of the oesophagus. The mechanisms by which this happens are still unknown. Here we have established an in vitro system for examining the competitive behaviour of two epithelia. We find that when an oesophageal epithelium model (Het1A cells) is confronted by an intestinal epithelium model (Caco-2 cells), the intestinal cells expand into the oesophageal domain. In this case the boundary involves overgrowth by the Caco-2 cells and the formation of isolated colonies. Two key transcription factors, normally involved in intestinal development, HNF4α and CDX2, are both expressed in BO. We examined the competitive ability of Het1A cells stably expressing HNF4α or CDX2 and placed in confrontation with unmodified Het1A cells. The key result is that stable expression of HNF4α, but not CDX2, increased the ability of the cells to migrate and push into the unmodified Het1A domain. In this situation the boundary between the cell types is a sharp one, as is normally seen in BO. The experiments were conducted using a variety of extracellular substrates, which all tended to increase the cell migration compared to uncoated plastic. These data provide evidence that HNF4α expression could have a potential role in the competitive spread of BO into the oesophagus as HNF4α increases the ability of cells to invade into the adjacent stratified squamous epithelium, thus enabling a single mutant cell eventually to generate a macroscopic patch of metaplasia., Competing Interests: Declarations of competing interest None., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

11. ESOMIR: a curated database of biomarker genes and miRNAs associated with esophageal cancer.

Author

Sindhoo A, Sipy S, Khan A, Selvaraj G, Alshammari A, Casida ME, and Wei DQ

Subjects

Humans, Barrett Esophagus complications, Barrett Esophagus genetics, Barrett Esophagus metabolism, Biomarkers, Tumor analysis, Biomarkers, Tumor genetics, Biomarkers, Tumor metabolism, Esophageal Neoplasms etiology, Esophageal Neoplasms genetics, Esophageal Neoplasms metabolism, Esophageal Squamous Cell Carcinoma genetics, Esophageal Squamous Cell Carcinoma metabolism, MicroRNAs genetics, MicroRNAs metabolism, Databases, Factual, Adenocarcinoma etiology, Adenocarcinoma genetics, Adenocarcinoma metabolism

Abstract

'Esophageal cancer' (EC) is a highly aggressive and deadly complex disease. It comprises two types, esophageal adenocarcinoma (EAC) and esophageal squamous cell carcinoma (ESCC), with Barrett's esophagus (BE) being the only known precursor. Recent research has revealed that microRNAs (miRNAs) play a crucial role in the development, prognosis and treatment of EC and are involved in various human diseases. Biological databases have become essential for cancer research as they provide information on genes, proteins, pathways and their interactions. These databases collect, store and manage large amounts of molecular data, which can be used to identify patterns, predict outcomes and generate hypotheses. However, no comprehensive database exists for EC and miRNA relationships. To address this gap, we developed a dynamic database named 'ESOMIR (miRNA in esophageal cancer) (https://esomir.dqweilab-sjtu.com)', which includes information about targeted genes and miRNAs associated with EC. The database uses analysis and prediction methods, including experimentally endorsed miRNA(s) information. ESOMIR is a user-friendly interface that allows easy access to EC-associated data by searching for miRNAs, target genes, sequences, chromosomal positions and associated signaling pathways. The search modules are designed to provide specific data access to users based on their requirements. Additionally, the database provides information about network interactions, signaling pathways and region information of chromosomes associated with the 3'untranslated region (3'UTR) or 5'UTR and exon sites. Users can also access energy levels of specific miRNAs with targeted genes. A fuzzy term search is included in each module to enhance the ease of use for researchers. ESOMIR can be a valuable tool for researchers and clinicians to gain insight into EC, including identifying biomarkers and treatments for this aggressive tumor. Database URL https://esomir.dqweilab-sjtu.com., (© The Author(s) 2023. Published by Oxford University Press.)

Published

2023

12. [Barrett's esophagus: histochemical difference between goblet cells and blue cells].

Author

Hernández-Castillo JA, Ramírez-Balderrama LA, and Murguía-Pérez M

Subjects

Humans, Goblet Cells metabolism, Cross-Sectional Studies, Alcian Blue metabolism, Barrett Esophagus diagnosis, Barrett Esophagus complications, Barrett Esophagus metabolism

Abstract

Background: Barrett's esophagus (BE) is the replacement of the usual esophageal mucosa by a simple columnar epithelium with the presence of goblet cells (GC) of intestinal type. It has been related to different risk factors such as gastroesophageal reflux disease (GERD), inappropriate consumption of irritating foods, smoking and overweight. There are CC mimic cells, known as blue cells (BC), which make the diagnosis of BE difficult, due to the lack of a precise definition of the nature and location of the gastroesophageal junction and the microscopic variations in this area., Objective: To identify morphologically and with histochemical techniques Alcian blue (AA) and periodic acid-Schiff (PAS) between GC and BC., Material and Methods: Retrolective cross-sectional analytical study where 45 samples of patients diagnosed with BE were included., Results: The morphological characteristics are similar in both cell varieties. PAS staining was 100%, unlike AA staining, with only 16 cases with staining, corresponding to 35.55%., Conclusions: PAS staining has a high sensitivity and specificity for the identification of GC, this being a fundamental pillar for the correct diagnosis of BE. The presence of BC detected by AA does not exclude the diagnosis of BE, since both cell types can coexist., (Licencia CC 4.0 (BY-NC-ND) © 2023 Revista Médica del Instituto Mexicano del Seguro Social.)

Published

2023

13. [Application of novel non-endoscopic device in the screening and early diagnosis of esophageal cancer].

Author

Fan ZY, Chen R, and Wei WW

Subjects

Humans, Early Detection of Cancer, Biomarkers analysis, Esophagoscopy, Esophageal Neoplasms diagnosis, Esophageal Neoplasms pathology, Esophageal Squamous Cell Carcinoma, Barrett Esophagus diagnosis, Barrett Esophagus metabolism, Barrett Esophagus pathology

Abstract

Esophageal cancer (EC) is a dreadful disease with a poor prognosis and poses heavy health burden worldwide. Developing effective methods to identify high-risk individuals is urgently needed for preliminary screening before endoscopy. The novel non-endoscopic device has the potential advantages of low cost, simple operation, and minimal invasiveness. Approximately 90% of participants can swallow the device successfully with high safety profiles, and sufficient esophageal exfoliated cells can be collected for cytological examination and biomarker detection. Cytological examination based on the device combined with trefoil factor 3 (TFF3) protein or DNA methylation examinations could effectively screen Barrett's esophagus-associated dysplasia and early esophageal adenocarcinoma, but large prospective studies are needed to further validate the diagnostic value of this device to improve the quality of evidence. Although the device-based cytological examination in combination with biomarker detection holds promise in the early screening of esophageal squamous dysplasia and early esophageal squamous cell carcinoma, related research is still in its infancy, and there is still a lack of sufficient evidence for population screening in China. Active research into the application of this novel non-endoscopic device in EC screening and early diagnosis is of great significance for optimizing EC screening strategies and improving the early diagnosis of EC.

Published

2023

14. Translating Molecular Biology Discoveries to Develop Targeted Cancer Interception in Barrett's Esophagus.

Author

Samaddar S, Buckles D, Saha S, Zhang Q, and Bansal A

Subjects

Humans, Risk Factors, Metaplasia, Barrett Esophagus metabolism, Esophageal Neoplasms pathology, Adenocarcinoma metabolism

Abstract

Esophageal adenocarcinoma (EAC) is a rapidly increasing lethal tumor. It commonly arises from a metaplastic segment known as Barrett's esophagus (BE), which delineates the at-risk population. Ample research has elucidated the pathogenesis of BE and its progression from metaplasia to invasive carcinoma; and multiple molecular pathways have been implicated in this process, presenting several points of cancer interception. Here, we explore the mechanisms of action of various agents, including proton pump inhibitors, non-steroidal anti-inflammatory drugs, metformin, and statins, and explain their roles in cancer interception. Data from the recent AspECT trial are discussed to determine how viable a multipronged approach to cancer chemoprevention would be. Further, novel concepts, such as the repurposing of chemotherapeutic drugs like dasatinib and the prevention of post-ablation BE recurrence using itraconazole, are discussed.

Published

2023

15. Single-Cell RNA Sequencing Unifies Developmental Programs of Esophageal and Gastric Intestinal Metaplasia.

Author

Nowicki-Osuch K, Zhuang L, Cheung TS, Black EL, Masqué-Soler N, Devonshire G, Redmond AM, Freeman A, di Pietro M, Pilonis N, Januszewicz W, O'Donovan M, Tavaré S, Shields JD, and Fitzgerald RC

Subjects

Humans, RNA, Metaplasia genetics, Esophagus metabolism, Esophagus pathology, Sequence Analysis, RNA, Tumor Microenvironment, Gastritis, Atrophic, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology

Abstract

Intestinal metaplasia in the esophagus (Barrett's esophagus IM, or BE-IM) and stomach (GIM) are considered precursors for esophageal and gastric adenocarcinoma, respectively. We hypothesize that BE-IM and GIM follow parallel developmental trajectories in response to differing inflammatory insults. Here, we construct a single-cell RNA-sequencing atlas, supported by protein expression studies, of the entire gastrointestinal tract spanning physiologically normal and pathologic states including gastric metaplasia in the esophagus (E-GM), BE-IM, atrophic gastritis, and GIM. We demonstrate that BE-IM and GIM share molecular features, and individual cells simultaneously possess transcriptional properties of gastric and intestinal epithelia, suggesting phenotypic mosaicism. Transcriptionally E-GM resembles atrophic gastritis; genetically, it is clonal and has a lower mutational burden than BE-IM. Finally, we show that GIM and BE-IM acquire a protumorigenic, activated fibroblast microenvironment. These findings suggest that BE-IM and GIM can be considered molecularly similar entities in adjacent organs, opening the path for shared detection and treatment strategies., Significance: Our data capture the gradual molecular and phenotypic transition from a gastric to intestinal phenotype (IM) in the esophagus and stomach. Because BE-IM and GIM can predispose to cancer, this new understanding of a common developmental trajectory could pave the way for a more unified approach to detection and treatment. See related commentary by Stachler, p. 1291. This article is highlighted in the In This Issue feature, p. 1275., (©2023 The Authors; Published by the American Association for Cancer Research.)

Published

2023

16. Signaling Pathways in the Pathogenesis of Barrett's Esophagus and Esophageal Adenocarcinoma.

Author

Maslenkina K, Mikhaleva L, Naumenko M, Vandysheva R, Gushchin M, Atiakshin D, Buchwalow I, and Tiemann M

Subjects

Humans, Signal Transduction, Tumor Microenvironment, Barrett Esophagus metabolism, Esophageal Neoplasms genetics, Esophageal Neoplasms metabolism, Adenocarcinoma genetics, Adenocarcinoma complications

Abstract

Barrett's esophagus (BE) is a premalignant lesion that can develop into esophageal adenocarcinoma (EAC). The development of Barrett's esophagus is caused by biliary reflux, which causes extensive mutagenesis in the stem cells of the epithelium in the distal esophagus and gastro-esophageal junction. Other possible cellular origins of BE include the stem cells of the mucosal esophageal glands and their ducts, the stem cells of the stomach, residual embryonic cells and circulating bone marrow stem cells. The classical concept of healing a caustic lesion has been replaced by the concept of a cytokine storm, which forms an inflammatory microenvironment eliciting a phenotypic shift toward intestinal metaplasia of the distal esophagus. This review describes the roles of the NOTCH, hedgehog, NF-κB and IL6/STAT3 molecular pathways in the pathogenesis of BE and EAC.

Published

2023

17. Serological levels of IGF-1 and IGFBP-3 in patients with Barrett's esophagus and esophageal adenocarcinoma: Longitudinal study.

Author

Uchima H, Da Fieno A, Bonilla A, Melo-Borges J, Sánchez-Montes C, Cuatrecasas M, Córdova H, Elizalde I, Rakislova N, Gratacós-Ginès J, Bayarri C, Casanova G, Ginès À, Llach J, Balaguer F, and Fernández-Esparrach G

Subjects

Humans, Longitudinal Studies, Insulin-Like Growth Factor Binding Protein 3, Insulin-Like Growth Factor I metabolism, Prospective Studies, Disease Progression, Barrett Esophagus metabolism, Barrett Esophagus pathology, Esophageal Neoplasms pathology, Adenocarcinoma pathology

Abstract

Background: Barrett's esophagus (BE) is an entity with a known histological progression to malignancy. The insulin-like growth factor (IGF) system is involved in the carcinogenesis through obesity-related mechanisms that include IGF and it has been associated with several types of cancer., Objectives: To evaluate the serological levels of IGF-1 and IGFBP-3 in patients with BE and esophageal adenocarcinoma., Patients and Methods: Prospective study of patients with BE and esophageal adenocarcinoma who underwent upper endoscopy between September 2012 and December 2015. A baseline determination of IGF-1 and IGFBP-3 was performed. We included a control group of patients without BE., Results: One hundred sixteen patients were included: 36 controls, 62 with BE (42 without dysplasia and 20 with dysplasia) and 18 with adenocarcinoma. IGF-1 and IGF-1/IGFBP-3 molar ratio showed a progression to high levels in BE and adenocarcinoma than in controls (IGF-1: 135.55±66.07ng/ml, 148.33±81.5ng/ml, 108.19±46.69ng/ml, respectively; P=.049) (molar ratio: 0.23±0.91, 0.29±0.11, 0.19±0.06, respectively; P=.001), without differences between the histological types of BE. Fifty-four out of the 65 patients with BE were followed up (median of 58.50 months, range 12-113) and 11 of them (20.4%) presented progression to low-grade dysplasia (n=8) or high-grade dysplasia/adenocarcinoma (n=3), without differences in the IGF system compared with patients without progression., Conclusions: Patients with BE and esophageal adenocarcinoma have changes in the IGF system although the serological levels of IGF-1 and IGFBP-3 do not correlate with histological progression of BE., (Copyright © 2022 Elsevier España, S.L.U. All rights reserved.)

Published

2023

18. Activation of NOTCH signaling via DLL1 is mediated by APE1-redox-dependent NF-κB activation in oesophageal adenocarcinoma.

Author

Chen L, Lu H, Peng D, Cao LL, Ballout F, Srirmajayam K, Chen Z, Bhat A, Wang TC, Capobianco A, Que J, McDonald OG, Zaika A, Zhang S, and El-Rifai W

Subjects

Humans, Mice, Animals, NF-kappa B metabolism, Mice, Transgenic, Oxidation-Reduction, Inflammation, Esophageal Neoplasms pathology, Adenocarcinoma pathology, Barrett Esophagus metabolism

Abstract

Objective: Oesophageal adenocarcinoma (EAC) arises in the setting of Barrett's oesophagus, an intestinal metaplastic precursor lesion that can develop in patients with chronic GERD. Here, we investigated the role of acidic bile salts, the mimicry of reflux, in activation of NOTCH signaling in EAC., Design: This study used public databases, EAC cell line models, L2-IL1β transgenic mouse model and human EAC tissue samples to identify mechanisms of NOTCH activation under reflux conditions., Results: Analysis of public databases demonstrated significant upregulation of NOTCH signaling components in EAC. In vitro studies demonstrated nuclear accumulation of active NOTCH1 cleaved fragment (NOTCH intracellular domain) and upregulation of NOTCH targets in EAC cells in response to reflux conditions. Additional investigations identified DLL1 as the predominant ligand contributing to NOTCH1 activation under reflux conditions. We discovered a novel crosstalk between APE1 redox function, reflux-induced inflammation and DLL1 upregulation where NF-κB can directly bind to and induce the expression of DLL1. The APE1 redox function was crucial for activation of the APE1-NF-κB-NOTCH axis and promoting cancer cell stem-like properties in response to reflux conditions. Overexpression of APE1 and DLL1 was detected in gastro-oesophageal junctions of the L2-IL1ß transgenic mouse model and human EAC tissue microarrays. DLL1 high levels were associated with poor overall survival in patients with EAC., Conclusion: These findings underscore a unique mechanism that links redox balance, inflammation and embryonic development (NOTCH) into a common pro-tumorigenic pathway that is intrinsic to EAC cells., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2023. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2023

19. A Consensus Diagnosis Utilizing Surface KI-67 Expression as an Ancillary Marker in Low-Grade Dysplasia Helps Identify Patients at High Risk of Progression to High-Grade Dysplasia and Esophaegal Adenocarcinoma.

Author

Lee C, Hayat U, Song K, Gravely AA, Mesa H, Peltola J, Iwamoto C, Manivel C, Bilal M, Shaheen N, Shaukat A, and Hanson BJ

Subjects

Humans, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology, Disease Progression, Hyperplasia genetics, Hyperplasia metabolism, Retrospective Studies, Risk Assessment, Adenocarcinoma genetics, Adenocarcinoma metabolism, Adenocarcinoma pathology, Esophageal Neoplasms genetics, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Ki-67 Antigen genetics, Ki-67 Antigen metabolism, Precancerous Conditions genetics, Precancerous Conditions metabolism, Precancerous Conditions pathology

Abstract

Esophageal adenocarcinoma (EAC) develops in a step-wise manner, from low-grade dysplasia (LGD) to high-grade dysplasia (HGD), and ultimately to invasive EAC. However, there remains diagnostic uncertainty about LGD and its risk of progression to HGD/EAC. The aim is to investigate the role of Ki-67, immune-histochemical marker of proliferation, surface expression in patients with confirmed LGD, and risk stratify progression to HGD/EAC. A retrospective cohort study was conducted. Patients with confirmed LGD and indefinite for dysplasia (IND), with a mean follow-up of ≥1 year, were included. Pathology specimens were stained for Ki-67 and analyzed for evidence of surface expression. Our results reveal that 29% of patients with confirmed LGD who stained positive with Ki-67 progressed to HGD/EAC as opposed to none (0%) of the patients who stained negative, a statistically significant result (P = 0.003). Similarly, specimens from patients with IND were stained and analyzed revealing a nonsignificant trend toward a higher rate of progression for Ki-67 positive cases versus Ki-67 negative, 30% versus 21%, respectively. Ki-67 expression by itself can identify patients with LGD at a high risk of progression., (Published by Oxford University Press on behalf of International Society for Diseases of the Esophagus 2022.)

Published

2023

20. Toll-like Receptor 4 Mediates Reflux-Induced Inflammation in a Murine Reflux Model.

Author

Gergen AK, Jarrett MJ, Li A, Meng X, Pratap A, Fullerton DA, and Weyant MJ

Subjects

Mice, Humans, Animals, Toll-Like Receptor 4, Mice, Inbred C3H, Treatment Outcome, Inflammation complications, Deoxycholic Acid, Esophageal Neoplasms pathology, Gastroesophageal Reflux complications, Gastroesophageal Reflux pathology, Barrett Esophagus complications, Barrett Esophagus metabolism

Abstract

Dysregulation of toll-like receptor (TLR) signaling within the gastrointestinal epithelium has been associated with uncontrolled inflammation and tumorigenesis. We sought to evaluate the role of TLR4 in the development of gastroesophageal reflux-mediated inflammation and mucosal changes of the distal esophagus. Verified human esophageal Barrett's cells with high grade dysplasia (CPB) and esophageal adenocarcinoma cells (OE33) were treated with deoxycholic acid for 24 hours. Cells were pretreated with a TLR4-specific inhibitor peptide 2 hours prior to deoxycholic acid treatment. Inflammatory markers were evaluated using immunoblotting and enzyme-linked immunosorbent assay. A surgical reflux mouse model was generated by performing a side-to-side anastomosis between the second portion of the duodenum and the gastroesophageal junction. Control animals underwent laparotomy with incision and closure of the esophagus superior to the gastroesophageal junction (sham procedure). Esophageal sections were evaluated using hematoxylin and eosin staining and immunohistochemistry. Deoxycholic acid increased expression of inflammatory markers including intercellular adhesion molecule-1, vascular cell adhesion molecule-1, and interleukin 8. Pretreatment with a TLR4 inhibitor significantly decreased deoxycholic acid-induced inflammatory marker expression. C3H/HeNCrl mice demonstrated a significant increase in mucosal hyperplasia and proliferation following DGEA compared to sham procedure. TLR4 mutant mice (C3H/HeJ) undergoing DGEA demonstrated an attenuated hyperplastic and proliferative response compared to C3H/HeNCrl mice. Inhibition of TLR4 signaling attenuates reflux-induced inflammation in vivo. These findings identify TLR4 inhibition as a potential therapeutic target to halt the progression of pathologic esophageal changes developing in the setting of chronic gastroesophageal reflux disease., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

21. APE1 redox function is required for activation of Yes-associated protein 1 under reflux conditions in Barrett's-associated esophageal adenocarcinomas.

Author

Ballout F, Lu H, Chen L, Sriramajayam K, Que J, Meng Z, Wang TC, Giordano S, Zaika A, McDonald O, Peng D, and El-Rifai W

Subjects

Animals, Bile Acids and Salts, DNA-(Apurinic or Apyrimidinic Site) Lyase, Humans, Mice, Oxidation-Reduction, YAP-Signaling Proteins, Adenocarcinoma pathology, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology, Esophageal Neoplasms pathology, Gastroesophageal Reflux complications

Abstract

Background: Esophageal adenocarcinoma (EAC) is characterized by poor prognosis and low survival rate. Chronic gastroesophageal reflux disease (GERD) is the main risk factor for the development of Barrett's esophagus (BE), a preneoplastic metaplastic condition, and its progression to EAC. Yes-associated protein 1 (YAP1) activation mediates stem-like properties under cellular stress. The role of acidic bile salts (ABS) in promoting YAP1 activation under reflux conditions remains unexplored., Methods: A combination of EAC cell lines, transgenic mice, and patient-derived xenografts were utilized in this study. mRNA expression and protein levels of APE1 and YAP1 were evaluated by qRT-PCR, western blot, and immunohistochemistry. YAP1 activation was confirmed by immunofluorescence staining and luciferase transcriptional activity reporter assay. The functional role and mechanism of regulation of YAP1 by APE1 was determined by sphere formation assay, siRNA mediated knockdown, redox-specific inhibition, and co-immunoprecipitation assays., Results: We showed that YAP1 signaling is activated in BE and EAC cells following exposure to ABS, the mimicry of reflux conditions in patients with GERD. This induction was consistent with APE1 upregulation in response to ABS. YAP1 activation was confirmed by its nuclear accumulation with corresponding up-regulation of YAP1 target genes. APE1 silencing inhibited YAP1 protein induction and reduced its nuclear expression and transcriptional activity, following ABS treatment. Further investigation revealed that APE1-redox-specific inhibition (E3330) or APE1 redox-deficient mutant (C65A) abrogated ABS-mediated YAP1 activation, indicating an APE1 redox-dependent mechanism. APE1 silencing or E3330 treatment reduced YAP1 protein levels and diminished the number and size of EAC spheroids. Mechanistically, we demonstrated that APE1 regulated YAP1 stability through interaction with β-TrCP ubiquitinase, whereas APE1-redox-specific inhibition induced YAP1 poly-ubiquitination promoting its degradation., Conclusion: Our findings established a novel function of APE1 in EAC progression elucidating druggable molecular vulnerabilities via targeting APE1 or YAP1 for the treatment of EAC., (© 2022. The Author(s).)

Published

2022

22. Lack of Association between Epidermal Growth Factor or Its Receptor and Reflux Esophagitis, Barrett's Esophagus, and Esophageal Adenocarcinoma: A Case-Control Study.

Author

Deissova T, Cvanova M, Kala Z, Jiraskova Zakostelska Z, Dolina J, Kunovsky L, Kroupa R, Pavlovsky Z, Lipovy B, Danek Z, Izakovicova Holla L, Urban O, Navratil V, Lischke R, Harustiak T, Grolich T, Prochazka V, Slaby O, and Borilova Linhartova P

Subjects

Carrier Proteins genetics, Case-Control Studies, Epidermal Growth Factor genetics, ErbB Receptors genetics, ErbB Receptors metabolism, Humans, Polymorphism, Single Nucleotide, RNA, Messenger, Adenocarcinoma pathology, Barrett Esophagus metabolism, Esophageal Neoplasms pathology, Esophagitis, Peptic genetics, Gastroesophageal Reflux genetics

Abstract

The epidermal growth factor ( EGF ) and its receptor ( EGFR ) gene-gene interactions were shown to increase the susceptibility to esophageal cancer. However, the role of the EGF/EGFR pathway in the development of gastroesophageal reflux disease (GERD) and its complications (reflux esophagitis (RE), Barrett's esophagus (BE), and esophageal adenocarcinoma (EAC)) remains unclear. This association study is aimed at investigating functional EGF and EGFR gene polymorphisms, their mRNA expression in esophageal tissues, and EGF plasma levels in relation to RE, BE, and EAC development in the Central European population. 301 patients with RE/BE/EAC (cases) as well as 98 patients with nonerosive reflux disease (NERD) and 8 healthy individuals (controls) were genotyped for +61 A>G EGF (rs4444903) and +142285 G>A EGFR (rs2227983) polymorphisms using the TaqMan quantitative polymerase chain reaction (qPCR). In random subgroups, the EGF and EGFR mRNA expressions were analyzed by reverse transcription qPCR in esophageal tissue with and without endoscopically visible pathological changes; and the EGF plasma levels were determined by enzyme-linked immunosorbent assay. None of the genotyped SNPs nor EGF-EGFR genotype interactions were associated with RE, BE, or EAC development ( p > 0.05). Moreover, mRNA expression of neither EGF nor EGFR differed between samples of the esophageal tissue with and without endoscopically visible pathology ( p > 0.05) nor between samples from patients with different diagnoses, i.e., RE, BE, or EAC ( p > 0.05). Nevertheless, the lower EGF mRNA expression in carriers of combined genotypes AA +61 EGF (rs4444903) and GG +142285 EGFR (rs2227983; p < 0.05) suggests a possible direct/indirect effect of EGF - EGFR gene interactions on EGF gene expression. In conclusion, EGF and EGFR gene variants and their mRNA/protein expression were not associated with RE, BE or EAC development in the Central European population., Competing Interests: The authors declare no conflict of interest., (Copyright © 2022 Tereza Deissova et al.)

Published

2022

23. Quantification and identification of bile acids in saliva by liquid chromatography-mass spectrometry: Possible non-invasive diagnostics of Barrett's esophagus?

Author

Dosedělová V, Laštovičková M, Ayala-Cabrera JF, Dolina J, Konečný Š, Schmitz OJ, and Kubáň P

Subjects

Bile Acids and Salts analysis, Chromatography, Liquid, Formates, Glycine analysis, Humans, Mass Spectrometry, Methanol analysis, Saliva chemistry, Taurine analysis, Barrett Esophagus metabolism

Abstract

Bile acids are a group of steroid compounds essential for lipid digestion. However, when bile acids are refluxed into the stomach and the esophagus, during the so called duodenogastroesophageal reflux, they can have a detrimental effect on the esophageal epithelium and cause pathological changes of esophageal tissue, e.g., Barrett's esophagus (BE). The levels of bile acids in saliva could therefore serve as possible biomarkers for the diagnostics of BE. In this work, we focused on optimization of sample collection and preparation by solid-phase extraction and subsequent quantification of 11 bile acids (unconjugated, glycine-conjugated) in saliva from healthy volunteers and BE patients by ultra-high-performance liquid chromatography coupled to triple-quadrupole tandem mass spectrometry. Moreover, high resolution MS (Orbitrap-MS) was utilized for identification of new bile acids in saliva. Methods for saliva collection including simple spitting and the Salivette® saliva collection system were compared; the latter was found to be unsuitable due to excessive retention of bile acids in the cotton swab. Methanol with 0.1% formic acid were selected for protein precipitation and bile acid extraction prior to SPE. Separation was performed in gradient elution of methanol and 0.1% formic acid in less than 10 min. Saliva from BE patients contained higher levels of almost all bile acids, and the tested groups could be distinguished by principal component analysis. In untargeted analysis by high resolution MS, taurine-conjugated bile acids and glycine-conjugated dihydroxy-bile acid sulfate were identified in saliva from healthy volunteers. We propose that analysis of salivary bile acids including taurine conjugates could be applicable in diagnostics of BE, following a larger clinical study., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

24. Pilot Study Showing Feasibility of Phosphoproteomic Profiling of Pathway-Level Molecular Alterations in Barrett's Esophagus.

Author

Moore J, Hekman R, Blum BC, Lawton M, Lehoux S, Stachler M, Pleskow D, Sawhney MS, Cummings RD, Emili A, and Qureshi A

Subjects

Disease Progression, Feasibility Studies, Humans, Pilot Projects, Proteomics, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology

Abstract

(1) Background: Barrett's esophagus is a major risk factor for esophageal adenocarcinoma. In this pilot study, we employed precision mass spectrometry to map global (phospho)protein perturbations in Barrett's esophagus lesions and adjacent normal tissue to glean insights into disease progression. (2) Methods: Biopsies were collected from two small but independent cohorts. Comparative analyses were performed between Barrett's esophagus samples and adjacent matched (normal) tissues from patients with known pathology, while specimens from healthy patients served as additional controls. (3) Results: We identified and quantified 6810 proteins and 6395 phosphosites in the discovery cohort, revealing hundreds of statistically significant differences in protein abundances and phosphorylation states. We identified a robust proteomic signature that accurately classified the disease status of samples from the independent patient cohorts. Pathway-level analysis of the phosphoproteomic profiles revealed the dysregulation of specific cellular processes, including DNA repair, in Barrett's esophagus relative to paired controls. Comparative analysis with previously published transcriptomic profiles provided independent evidence in support of these preliminary findings. (4) Conclusions: This pilot study establishes the feasibility of using unbiased quantitative phosphoproteomics to identify molecular perturbations associated with disease progression in Barrett's esophagus to define potentially clinically actionable targets warranting further assessment.

Published

2022

25. Elevation of fatty acid desaturase 2 in esophageal adenocarcinoma increases polyunsaturated lipids and may exacerbate bile acid-induced DNA damage.

Author

Molendijk J, Kolka CM, Cairns H, Brosda S, Mohamed A, Shah AK, Brown I, Hodson MP, Hennessy T, Liu G, Stoll T, Richards RS, Gartside M, Patel K, Clemons NJ, Phillips WA, Barbour A, Westerhuis JA, and Hill MM

Subjects

Bile Acids and Salts, DNA Damage genetics, Esophageal Neoplasms, Fatty Acid Desaturases genetics, Fatty Acid Desaturases metabolism, Fatty Acids, Humans, Sphingolipids, Adenocarcinoma genetics, Adenocarcinoma metabolism, Adenocarcinoma pathology, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology

Abstract

Background: The risk of esophageal adenocarcinoma (EAC) is associated with gastro-esophageal reflux disease (GERD) and obesity. Lipid metabolism-targeted therapies decrease the risk of progressing from Barrett's esophagus (BE) to EAC, but the precise lipid metabolic changes and their roles in genotoxicity during EAC development are yet to be established., Methods: Esophageal biopsies from the normal epithelium (NE), BE, and EAC, were analyzed using concurrent lipidomics and proteomics (n = 30) followed by orthogonal validation on independent samples using RNAseq transcriptomics (n = 22) and immunohistochemistry (IHC, n = 80). The EAC cell line FLO-1 was treated with FADS2 selective inhibitor SC26196, and/or bile acid cocktail, followed by immunofluorescence staining for γH2AX., Results: Metabolism-focused Reactome analysis of the proteomics data revealed enrichment of fatty acid metabolism, ketone body metabolism, and biosynthesis of specialized pro-resolving mediators in EAC pathogenesis. Lipidomics revealed progressive alterations (NE-BE-EAC) in glycerophospholipid synthesis with decreasing triglycerides and increasing phosphatidylcholine and phosphatidylethanolamine, and sphingolipid synthesis with decreasing dihydroceramide and increasing ceramides. Furthermore, a progressive increase in lipids with C20 fatty acids and polyunsaturated lipids with ≥4 double bonds were also observed. Integration with transcriptome data identified candidate enzymes for IHC validation: Δ4-Desaturase, Sphingolipid 1 (DEGS1) which desaturates dihydroceramide to ceramide, and Δ5 and Δ6-Desaturases (fatty acid desaturases, FADS1 and FADS2), responsible for polyunsaturation. All three enzymes showed significant increases from BE through dysplasia to EAC, but transcript levels of DEGS1 were decreased suggesting post-translational regulation. Finally, the FADS2 selective inhibitor SC26196 significantly reduced polyunsaturated lipids with three and four double bonds and reduced bile acid-induced DNA double-strand breaks in FLO-1 cells in vitro., Conclusions: Integrated multiomics revealed sphingolipid and phospholipid metabolism rewiring during EAC development. FADS2 inhibition and reduction of the high polyunsaturated lipids effectively protected EAC cells from bile acid-induced DNA damage in vitro, potentially through reduced lipid peroxidation., (© 2022 The Authors. Clinical and Translational Medicine published by John Wiley & Sons Australia, Ltd on behalf of Shanghai Institute of Clinical Bioinformatics.)

Published

2022

26. COX-2 strengthens the effects of acid and bile salts on human esophageal cells and Barrett esophageal cells.

Author

Jiangang S, Nayoung K, Hongfang W, Junda L, Li C, Xuefeng B, and Mingsong L

Subjects

CDX2 Transcription Factor genetics, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Humans, Metaplasia, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Barrett Esophagus genetics, Barrett Esophagus metabolism, Bile Acids and Salts pharmacology, Cyclooxygenase 2 genetics, Cyclooxygenase 2 metabolism, Esophageal Neoplasms metabolism, Esophageal Squamous Cell Carcinoma metabolism

Abstract

Aims: Investigate the effect and mechanism of COX-2 on viability, intestinal metaplasia, and atypia in human esophageal squamous and Barrett esophageal cell lines., Methods: Human esophageal squamous and Barrett esophageal cell lines were transfected with a COX-2 expression vector and a COX-2 siRNA, and then were treated with acid, bile salts, and a mixture of both. Cell viability, the expression of COX-2, NF-κB(p65), CDX-2, MUC2, c-myb, and BMP-4, and the morphology and microstructure of cells were then observed., Results: The viability of COX-2 overexpressed cells was significantly higher than that of control cells, while the viability of COX-2 siRNA-treated cells was significantly lower than that of control cells. Intestinal metaplasia and atypia were observed in cells overexpressing COX-2. Acid, bile salts, and their mixture inhibited the viability of these two cell lines, but the inhibitory effect of the mixture was stronger than a single treatment in either. SiRNA mediated knockdown of COX-2 strengthened the antiproliferative effects of the mixture on HET-1A and BAR-T cells. The expression of p-p65, CDX-2, and BMP-4 was positively correlated with COX-2 expression, while the expression levels of p65, MUC2, and c-myb remained unchanged., Conclusion: COX-2 may influence the viability, atypia, and intestinal metaplasia of human esophageal cells and Barrett esophageal cells. Activation of the p-p65, CDX-2, and BMP-4 signaling pathways by COX-2 may be part of this mechanism., (© 2022. The Author(s).)

Published

2022

27. Role of Obesity, Physical Exercise, Adipose Tissue-Skeletal Muscle Crosstalk and Molecular Advances in Barrett's Esophagus and Esophageal Adenocarcinoma.

Author

Bilski J, Pinkas M, Wojcik-Grzybek D, Magierowski M, Korbut E, Mazur-Bialy A, Krzysiek-Maczka G, Kwiecien S, Magierowska K, and Brzozowski T

Subjects

Adipokines, Adipose Tissue metabolism, Esophageal Neoplasms, Exercise, Humans, Muscle, Skeletal metabolism, Obesity complications, Obesity genetics, United States, Adenocarcinoma metabolism, Barrett Esophagus genetics, Barrett Esophagus metabolism, Gastroesophageal Reflux

Abstract

Both obesity and esophageal adenocarcinoma (EAC) rates have increased sharply in the United States and Western Europe in recent years. EAC is a classic example of obesity-related cancer where the risk of EAC increases with increasing body mass index. Pathologically altered visceral fat in obesity appears to play a key role in this process. Visceral obesity may promote EAC by directly affecting gastroesophageal reflux disease and Barrett's esophagus (BE), as well as a less reflux-dependent effect, including the release of pro-inflammatory adipokines and insulin resistance. Deregulation of adipokine production, such as the shift to an increased amount of leptin relative to "protective" adiponectin, has been implicated in the pathogenesis of BE and EAC. This review discusses not only the epidemiology and pathophysiology of obesity in BE and EAC, but also molecular alterations at the level of mRNA and proteins associated with these esophageal pathologies and the potential role of adipokines and myokines in these disorders. Particular attention is given to discussing the possible crosstalk of adipokines and myokines during exercise. It is concluded that lifestyle interventions to increase regular physical activity could be helpful as a promising strategy for preventing the development of BE and EAC.

Published

2022

28. Barrett's Metaplasia Progression towards Esophageal Adenocarcinoma: An Attempt to Select a Panel of Molecular Sensors and to Reflect Clinical Alterations by Experimental Models.

Author

Korbut E, Krukowska K, and Magierowski M

Subjects

Humans, Metaplasia, Models, Theoretical, SOXC Transcription Factors, Adenocarcinoma pathology, Barrett Esophagus metabolism, Esophageal Neoplasms pathology, Gastroesophageal Reflux genetics, Gastroesophageal Reflux pathology

Abstract

The molecular processes that predispose the development of Barrett's esophagus (BE) towards esophageal adenocarcinoma (EAC) induced by gastrointestinal reflux disease (GERD) are still under investigation. In this study, based on a scientific literature screening and an analysis of clinical datasets, we selected a panel of 20 genes covering BE- and EAC-specific molecular markers ( FZD5 , IFNGR1 , IL1A, IL1B, IL1R1, IL1RN, KRT4, KRT8, KRT15, KRT18, NFKBIL1, PTGS1, PTGS2, SOCS3, SOX4, SOX9, SOX15, TIMP1, TMEM2, TNFRSF10B ). Furthermore, we aimed to reflect these alterations within an experimental and translational in vitro model of BE to EAC progression. We performed a comparison between expression profiles in GSE clinical databases with an in vitro model of GERD involving a BE cell line (BAR-T) and EAC cell lines (OE33 and OE19). Molecular responses of cells treated with acidified bile mixture (BM) at concentration of 100 and 250 μM for 30 min per day were evaluated. We also determined a basal mRNA expression within untreated, wild type cell lines on subsequent stages of BE and EAC development. We observed that an appropriately optimized in vitro model based on the combination of BAR-T, OE33 and OE19 cell lines reflects in 65% and more the clinical molecular alterations observed during BE and EAC development. We also confirmed previous observations that exposure to BM (GERD in vitro) activated carcinogenesis in non-dysplastic cells, inducing molecular alternations in the advanced stages of BE. We conclude that it is possible to induce, to a high extent, the molecular profile observed clinically within appropriately and carefully optimized experimental models, triggering EAC development. This experimental scheme and molecular marker panel might be implemented in further research, e.g., aiming to develop and evaluate novel compounds and prodrugs targeting GERD as well as BE and EAC prevention and treatment.

Published

2022

29. Abnormal TP53 Predicts Risk of Progression in Patients With Barrett's Esophagus Regardless of a Diagnosis of Dysplasia.

Author

Redston M, Noffsinger A, Kim A, Akarca FG, Rara M, Stapleton D, Nowden L, Lash R, Bass AJ, and Stachler MD

Subjects

Adenocarcinoma pathology, Adult, Aged, Aged, 80 and over, Barrett Esophagus pathology, Disease Progression, Esophageal Neoplasms pathology, Female, Humans, Immunohistochemistry, Male, Middle Aged, Prognosis, Risk Assessment, Adenocarcinoma metabolism, Barrett Esophagus metabolism, Esophageal Neoplasms metabolism, Tumor Suppressor Protein p53 metabolism

Abstract

Background and Aims: Barrett's esophagus (BE) is the precursor to esophageal adenocarcinoma. A major challenge is identifying the small group with BE who will progress to advanced disease from the many who will not. Assessment of p53 status has promise as a predictive biomarker, but analytic limitations and lack of validation have precluded its use. The aim of this study was to develop a robust criteria for grading abnormal immunohistochemical (IHC) expression of p53 and to test its utility as a biomarker for progression in BE., Methods: Criteria for abnormal IHC of p53 were developed in BE biopsies and validated with sequencing to assess TP53 mutations. The utility of p53 IHC as a biomarker for progression of BE was tested retrospectively in 561 patients with BE with or without known progression. The findings were prospectively validated in a clinical practice setting in 1487 patients with BE., Results: Abnormal p53 IHC highly correlated with TP53 mutation status (90.6% agreement) and was strongly associated with neoplastic progression in the retrospective cohorts, regardless of histologic diagnosis (P < .001). In the retrospective cohort, abnormal p53 was associated with a hazard ratio of 5.03 (95% confidence interval, 3.88-6.5) and a hazard ratio of 5.27 (95% confidence interval, 3.93-7.07) for patients with exclusively nondysplastic disease before progression. In the prospective validation cohort, p53 IHC predicted progression among nondysplastic BE, indefinite for dysplasia, and low-grade dysplasia (P < .001)., Conclusions: p53 IHC identifies patients with BE at higher risk of progression, including in patients without evidence of dysplasia. p53 IHC is inexpensive, easily integrated into routine practice, and should be considered in biopsies from all BE patients without high-grade dysplasia or cancer., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

30. Use of a Cytosponge biomarker panel to prioritise endoscopic Barrett's oesophagus surveillance: a cross-sectional study followed by a real-world prospective pilot.

Author

Pilonis ND, Killcoyne S, Tan WK, O'Donovan M, Malhotra S, Tripathi M, Miremadi A, Debiram-Beecham I, Evans T, Phillips R, Morris DL, Vickery C, Harrison J, di Pietro M, Ortiz-Fernandez-Sordo J, Haidry R, Kerridge A, Sasieni PD, and Fitzgerald RC

Subjects

Adenocarcinoma diagnostic imaging, Adenocarcinoma metabolism, Aged, Barrett Esophagus diagnostic imaging, Barrett Esophagus metabolism, Barrett Esophagus therapy, Biomarkers metabolism, Clinical Decision-Making, Clinical Trials as Topic, Cross-Sectional Studies, Decision Trees, Disease Progression, Esophageal Neoplasms diagnostic imaging, Esophageal Neoplasms metabolism, Esophagoscopy, Feasibility Studies, Female, Humans, Male, Middle Aged, Pilot Projects, Prospective Studies, Retrospective Studies, Risk Assessment, Risk Factors, SARS-CoV-2, Trefoil Factor-3 metabolism, Tumor Suppressor Protein p53 metabolism, Adenocarcinoma pathology, Barrett Esophagus pathology, COVID-19 prevention & control, Esophageal Neoplasms pathology, Patient Selection, Watchful Waiting methods

Abstract

Background: Endoscopic surveillance is recommended for patients with Barrett's oesophagus because, although the progression risk is low, endoscopic intervention is highly effective for high-grade dysplasia and cancer. However, repeated endoscopy has associated harms and access has been limited during the COVID-19 pandemic. We aimed to evaluate the role of a non-endoscopic device (Cytosponge) coupled with laboratory biomarkers and clinical factors to prioritise endoscopy for Barrett's oesophagus., Methods: We first conducted a retrospective, multicentre, cross-sectional study in patients older than 18 years who were having endoscopic surveillance for Barrett's oesophagus (with intestinal metaplasia confirmed by TFF3 and a minimum Barrett's segment length of 1 cm [circumferential or tongues by the Prague C and M criteria]). All patients had received the Cytosponge and confirmatory endoscopy during the BEST2 (ISRCTN12730505) and BEST3 (ISRCTN68382401) clinical trials, from July 7, 2011, to April 1, 2019 (UK Clinical Research Network Study Portfolio 9461). Participants were divided into training (n=557) and validation (n=334) cohorts to identify optimal risk groups. The biomarkers evaluated were overexpression of p53, cellular atypia, and 17 clinical demographic variables. Endoscopic biopsy diagnosis of high-grade dysplasia or cancer was the primary endpoint. Clinical feasibility of a decision tree for Cytosponge triage was evaluated in a real-world prospective cohort from Aug 27, 2020 (DELTA; ISRCTN91655550; n=223), in response to COVID-19 and the need to provide an alternative to endoscopic surveillance., Findings: The prevalence of high-grade dysplasia or cancer determined by the current gold standard of endoscopic biopsy was 17% (92 of 557 patients) in the training cohort and 10% (35 of 344) in the validation cohort. From the new biomarker analysis, three risk groups were identified: high risk, defined as atypia or p53 overexpression or both on Cytosponge; moderate risk, defined by the presence of a clinical risk factor (age, sex, and segment length); and low risk, defined as Cytosponge-negative and no clinical risk factors. The risk of high-grade dysplasia or intramucosal cancer in the high-risk group was 52% (68 of 132 patients) in the training cohort and 41% (31 of 75) in the validation cohort, compared with 2% (five of 210) and 1% (two of 185) in the low-risk group, respectively. In the real-world setting, Cytosponge results prospectively identified 39 (17%) of 223 patients as high risk (atypia or p53 overexpression, or both) requiring endoscopy, among whom the positive predictive value was 31% (12 of 39 patients) for high-grade dysplasia or intramucosal cancer and 44% (17 of 39) for any grade of dysplasia., Interpretation: Cytosponge atypia, p53 overexpression, and clinical risk factors (age, sex, and segment length) could be used to prioritise patients for endoscopy. Further investigation could validate their use in clinical practice and lead to a substantial reduction in endoscopy procedures compared with current surveillance pathways., Funding: Medical Research Council, Cancer Research UK, Innovate UK., Competing Interests: Declaration of interests The Cytosponge technology including the device and TFF3 biomarker has been licensed by the Medical Research Council to Covidien (now Medtronic). RCF and MO'D are named on patents related to this test. RCF and MO'D are shareholders for Cyted. MO'D is a consultant for Cyted. All other authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY 4.0 license. Published by Elsevier Ltd.. All rights reserved.)

Published

2022

31. Nitric oxide could promote development of Barrett's esophagus by S -nitrosylation-induced inhibition of Rho-ROCK signaling in esophageal fibroblasts.

Author

Fujiya T, Asanuma K, Koike T, Okata T, Saito M, Asano N, Imatani A, and Masamune A

Subjects

Amides pharmacology, Barrett Esophagus drug therapy, Cell Differentiation drug effects, Epithelial Cells metabolism, Esophageal Neoplasms metabolism, Fibroblasts drug effects, Humans, Metaplasia drug therapy, Pyridines pharmacology, Signal Transduction drug effects, Signal Transduction physiology, Barrett Esophagus metabolism, Fibroblasts metabolism, Gastroesophageal Reflux metabolism, Metaplasia metabolism, Nitric Oxide metabolism

Abstract

Barrett's esophagus arises in the process of wound healing in distal esophageal epithelium damaged by gastroesophageal reflux disease. Differentiation of fibroblast into myofibroblasts, a smooth muscle cell-like phenotype and tissue contraction are crucial processes in wound healing. No study has evaluated mechanism by which luminal esophageal nitric oxide (NO) affect Rho-associated coiled coil-forming protein kinase (Rho-ROCK) signaling pathway, a key factor of tissue contraction, in stromal fibroblasts to develop Barrett's esophagus. Using esophageal fibroblasts, we performed collagen-based cell contraction assays and evaluated influence of Rho-ROCK signaling in the exposure to acidic bile salts and NOC-9, which is an NO donor. We found that enhanced cell contraction induced by acidic bile salts was inhibited by NO, accompanied by decrease in phosphorylated myosin light chain expression and stress fiber formation. NO directly S- nitrosylated GTP-RhoA and consequently blocked Rho-ROCK signaling. Moreover, exposure to NO and Y27632, a Rho-ROCK signaling inhibitor, decreased α-SMA expression and increased bone morphogenetic protein-4 (BMP4) expression and secretion. These findings could account for the increased expression of BMP4 in the columnar epithelial cells and stromal fibroblasts in human Barrett's esophagus. NO could impair wound contraction by blocking the Rho-ROCK signaling pathway and promote the development of Barrett's esophagus. NEW & NOTEWORTHY Barrett's esophagus is the condition where esophageal epithelium damaged by gastroesophageal reflux disease (GERD) is abnormally healed via replacing of metaplastic columnar epithelium, but very few studies have conducted focusing wound healing in the development of Barrett's esophagus. Esophageal luminal nitric oxide inhibits Rho-ROCK signaling pathway in esophageal fibroblasts, which leads to delay tissue contraction, a pivotal step in proper wound healing. Moreover, this inhibition increases tissue BMP4 expression. Impaired wound healing could be related to Barrett's esophagus.

Published

2022

32. Transcription factor-mediated intestinal metaplasia and the role of a shadow enhancer.

Author

Singh H, Seruggia D, Madha S, Saxena M, Nagaraja AK, Wu Z, Zhou J, Huebner AJ, Maglieri A, Wezenbeek J, Hochedlinger K, Orkin SH, Bass AJ, Hornick JL, and Shivdasani RA

Subjects

Animals, CDX2 Transcription Factor genetics, Homeodomain Proteins genetics, Metaplasia genetics, Mice, Barrett Esophagus genetics, Barrett Esophagus metabolism, Barrett Esophagus pathology, Transcription Factors genetics

Abstract

Barrett's esophagus (BE) and gastric intestinal metaplasia are related premalignant conditions in which areas of human stomach epithelium express mixed gastric and intestinal features. Intestinal transcription factors (TFs) are expressed in both conditions, with unclear causal roles and cis -regulatory mechanisms. Ectopic CDX2 reprogrammed isogenic mouse stomach organoid lines to a hybrid stomach-intestinal state transcriptionally similar to clinical metaplasia; squamous esophageal organoids resisted this CDX2-mediated effect. Reprogramming was associated with induced activity at thousands of previously inaccessible intestine-restricted enhancers, where CDX2 occupied DNA directly. HNF4A, a TF recently implicated in BE pathogenesis, induced weaker intestinalization by binding a novel shadow Cdx2 enhancer and hence activating Cdx2 expression. CRISPR/Cas9-mediated germline deletion of that cis -element demonstrated its requirement in Cdx2 induction and in the resulting activation of intestinal genes in stomach cells. dCas9-conjugated KRAB repression mapped this activity to the shadow enhancer's HNF4A binding site. Altogether, we show extensive but selective recruitment of intestinal enhancers by CDX2 in gastric cells and that HNF4A-mediated ectopic CDX2 expression in the stomach occurs through a conserved shadow cis -element. These findings identify mechanisms for TF-driven intestinal metaplasia and a likely pathogenic TF hierarchy., (© 2022 Singh et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2022

33. P63 Deficiency and CDX2 Overexpression Lead to Barrett's-Like Metaplasia in Mouse Esophageal Epithelium.

Author

Fang Y, Li W, and Chen X

Subjects

Barrett Esophagus genetics, Barrett Esophagus pathology, CDX2 Transcription Factor genetics, Cell Proliferation, Epithelial Cells pathology, Esophageal Mucosa pathology, Genetic Predisposition to Disease, Metaplasia, Microfilament Proteins genetics, Microfilament Proteins metabolism, Phenotype, Trans-Activators genetics, Barrett Esophagus metabolism, CDX2 Transcription Factor biosynthesis, Epithelial Cells metabolism, Esophageal Mucosa metabolism, Trans-Activators deficiency

Abstract

Background: The cellular origin and molecular mechanisms of Barrett's esophagus (BE) are still controversial. Trans-differentiation is a mechanism characterized by activation of the intestinal differentiation program and inactivation of the squamous differentiation program., Aims: Renal capsule grafting (RCG) was used to elucidate whether CDX2 overexpression on the basis of P63 deficiency in the esophageal epithelium may generate intestinal metaplasia., Methods: P63 -/- ;Villin-Cdx2 embryos were generated by crossing P63 +/- mice with Villin-Cdx2 mice. E18.5 esophagus was xenografted in a renal capsule grafting (RCG) model. At 1, 2, or 4 weeks after RCG, the mouse esophagus was immunostained for a proliferation marker (BrdU), squamous transcription factors (SOX2, PAX9), squamous differentiation markers (CK5, CK4, and CK1), intestinal transcription factors (CDX1, HNF1α, HNF4α, GATA4, and GATA6), intestinal columnar epithelial cell markers (A33, CK8), goblet cell marker (MUC2, TFF3), Paneth cell markers (LYZ and SOX9), enteroendocrine cell marker (CHA), and Tuft cell marker (DCAMKL1)., Results: The P63 -/- ;Villin-Cdx2 RCG esophagus was lined with proliferating PAS/AB+ cuboidal cells and formed an intestinal crypt-like structure. The goblet cell markers (TFF3 and MUC2) and intestinal transcription factors (CDX1, HNF1α, HNF4α, GATA4, and GATA6) were expressed although no typical morphology of goblet cells was observed. Other intestinal cell markers including enteroendocrine cell marker (CHA), Paneth cell markers (LYZ and Sox9), and intestinal secretory cell marker (UEA/WGA) were also expressed in the P63 -/- ;Villin-Cdx2 RCG esophagus. Squamous cell markers (PAX9 and SOX2) were also expressed, suggesting a transitional phenotype., Conclusion: CDX2 overexpression on the basis of P63 deficiency in esophageal epithelial cells induces Barrett's-like metaplasia in vivo. Additional factors may be needed to drive this transitional phenotype into full-blown BE., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC part of Springer Nature.)

Published

2021

34. Deoxycholic acid induces proinflammatory cytokine production by model oesophageal cells via lipid rafts.

Author

Quilty F, Freeley M, Gargan S, Gilmer J, and Long A

Subjects

Barrett Esophagus metabolism, Bile Acids and Salts chemistry, Caveolin 1 metabolism, Cell Line, Tumor, Cholesterol chemistry, Cholesterol metabolism, Cytokines metabolism, Gastroesophageal Reflux metabolism, Gene Expression drug effects, Humans, Inflammation, Interleukin-6 metabolism, Interleukin-8 metabolism, NF-kappa B metabolism, Neoplasms metabolism, Phosphorylation, Signal Transduction, beta-Cyclodextrins metabolism, src-Family Kinases metabolism, Deoxycholic Acid chemistry, Esophagus drug effects, Lipids chemistry, Membrane Microdomains chemistry

Abstract

The bile acid component of gastric refluxate has been implicated in inflammation of the oesophagus including conditions such as gastro-oesophageal reflux disease (GORD) and Barrett's Oesophagus (BO). Here we demonstrate that the hydrophobic bile acid, deoxycholic acid (DCA), stimulated the production of IL-6 and IL-8 mRNA and protein in Het-1A, a model of normal oesophageal cells. DCA-induced production of IL-6 and IL-8 was attenuated by pharmacologic inhibition of the Protein Kinase C (PKC), MAP kinase, tyrosine kinase pathways, by the cholesterol sequestering agent, methyl-beta-cyclodextrin (MCD) and by the hydrophilic bile acid, ursodeoxycholic acid (UDCA). The cholesterol-interacting agent, nystatin, which binds cholesterol without removing it from the membrane, synergized with DCA to induce IL-6 and IL-8. This was inhibited by the tyrosine kinase inhibitor genistein. DCA stimulated the phosphorylation of lipid raft component Src tyrosine kinase (Src). while knockdown of caveolin-1 expression using siRNA resulted in a decreased level of IL-8 production in response to DCA. Taken together, these results demonstrate that DCA stimulates IL-6 and IL-8 production in oesophageal cells via lipid raft-associated signaling. Inhibition of this process using cyclodextrins represents a novel therapeutic approach to the treatment of inflammatory diseases of the oesophagus including GORD and BO., (Copyright © 2021 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2021

35. Insulin/IGF-1 Signaling Is Downregulated in Barrett's Esophagus Patients Undergoing a Moderate Calorie and Protein Restriction Program: A Randomized 2-Year Trial.

Author

Arcidiacono D, Zaramella A, Fabris F, Sánchez-Rodríguez R, Nucci D, Fassan M, Nardi M, Benna C, Cristofori C, Morbin T, Pucciarelli S, Fantin A, and Realdon S

Subjects

Adenocarcinoma etiology, Adenocarcinoma prevention & control, Aged, Barrett Esophagus complications, Barrett Esophagus metabolism, Body Mass Index, Down-Regulation, Esophageal Neoplasms etiology, Esophageal Neoplasms prevention & control, Female, Humans, Insulin Resistance, MAP Kinase Signaling System physiology, Male, Middle Aged, Obesity complications, Obesity diet therapy, Obesity metabolism, Signal Transduction physiology, Treatment Outcome, Waist Circumference, Weight Loss, Barrett Esophagus diet therapy, Caloric Restriction methods, Diet, Protein-Restricted methods, Insulin metabolism, Insulin-Like Growth Factor I metabolism

Abstract

Obesity and associated insulin resistance (Ins-R) have been identified as important risk factors for esophageal adenocarcinoma development. Elevated calories and protein consumption are also associated with Ins-R and glucose intolerance. We investigated the effect of a 24-month moderate calorie and protein restriction program on overweight or obese patients affected by Barrett's esophagus (BE), as no similar dietary approach has been attempted to date in this disease context. Anthropometric parameters, levels of serum analytes related to obesity and Ins-R, and the esophageal insulin/IGF-1 signaling pathway were analyzed. This study is registered with ClinicalTrials.gov, number NCT03813381. Insulin, C-peptide, IGF-1, IGF-binding protein 3 (IGFBP3), adipokines, and esophageal expression of the main proteins involved in insulin/IGF-1 signal transduction were quantified using Luminex-XMAP ® technology in 46 patients who followed the restriction program (IA) and in 54 controls (CA). Body mass index and waist circumference significantly decreased in 76.1% of IA and 35.2% of CA. IGF-1 levels were reduced in 71.7% of IA and 51.8% of CA. The simultaneous reduction of glycaemia, IGF-1, the IGF-1/IGFBP3 ratio, and the improvement in weight loss-dependent insulin sensitivity, were associated with the downregulation of the insulin/IGF-1 signal on BE tissue. The proposed intervention program was an effective approach to counteract obesity-associated cancer risk factors. The improvement in metabolic condition resulted in a downregulation of the ERK-mediated mitogenic signal in 43.5% of patients, probably affecting the molecular mechanism driving adenocarcinoma development in BE lesions.

Published

2021

36. Inhibition of NHE-1 Increases Smoke-Induced Proliferative Activity of Barrett's Esophageal Cell Line.

Author

Becskeházi E, Korsós MM, Gál E, Tiszlavicz L, Hoyk Z, Deli MA, Köhler ZM, Keller-Pintér A, Horváth A, Csekő K, Helyes Z, Hegyi P, and Venglovecz V

Subjects

Animals, Barrett Esophagus metabolism, Barrett Esophagus pathology, Cell Line, Cell Survival, Epithelial Cells metabolism, Esophagus pathology, Gene Expression, Guinea Pigs, Humans, Hydrogen-Ion Concentration, Male, Middle Aged, Smoking, Sodium-Hydrogen Exchanger 1 metabolism, Nicotiana chemistry, Barrett Esophagus genetics, Cell Proliferation genetics, Esophagus metabolism, RNA Interference, Smoke, Sodium-Hydrogen Exchanger 1 genetics

Abstract

Several clinical studies indicate that smoking predisposes its consumers to esophageal inflammatory and malignant diseases, but the cellular mechanism is not clear. Ion transporters protect esophageal epithelial cells by maintaining intracellular pH at normal levels. In this study, we hypothesized that smoking affects the function of ion transporters, thus playing a role in the development of smoking-induced esophageal diseases. Esophageal cell lines were treated with cigarettesmoke extract (CSE), and the viability and proliferation of the cells, as well as the activity, mRNA and protein expression of the Na + /H + exchanger-1 (NHE-1), were studied. NHE-1 expression was also investigated in human samples. For chronic treatment, guinea pigs were exposed to tobacco smoke, and NHE-1 activity was measured. Silencing of NHE-1 was performed by using specific siRNA. CSE treatment increased the activity and protein expression of NHE-1 in the metaplastic cells and decreased the rate of proliferation in a NHE-1-dependent manner. In contrast, CSE increased the proliferation of dysplastic cells independently of NHE-1. In the normal cells, the expression and activity of NHE-1 decreased due to in vitro and in vivo smoke exposure. Smoking enhances the function of NHE-1 in Barrett's esophagus, and this is presumably a compensatory mechanism against this toxic agent.

Published

2021

37. Obesity and its effects on the esophageal mucosal barrier.

Author

Paris S, Ekeanyanwu R, Jiang Y, Davis D, Spechler SJ, and Souza RF

Subjects

Barrett Esophagus metabolism, Esophageal Mucosa pathology, Esophagitis, Peptic metabolism, Esophagitis, Peptic pathology, Esophagus pathology, Gastroesophageal Reflux metabolism, Humans, Obesity metabolism, Barrett Esophagus pathology, Esophageal Mucosa metabolism, Gastroesophageal Reflux pathology, Obesity pathology

Abstract

Obesity is associated with gastroesophageal reflux disease (GERD) and its complications including reflux esophagitis, Barrett's esophagus, and esophageal adenocarcinoma. Traditionally, these associations have been attributed to the mechanical effect of abdominal fat in increasing intra-abdominal pressure, thereby promoting gastroesophageal reflux and causing disruption of antireflux mechanisms at the esophagogastric junction. However, recent studies suggest that visceral adipose tissue (VAT) produces numerous cytokines that can cause esophageal inflammation and impair esophageal mucosal barrier integrity through reflux-independent mechanisms that render the esophageal mucosa especially susceptible to GERD-induced injury. In this report, we review mechanisms of esophageal mucosal defense, the genesis and remodeling of visceral adipose tissue during obesity, and the potential role of substances produced by VAT, especially the VAT that encircles the esophagogastric junction, in the impairment of esophageal mucosal barrier integrity that leads to the development of GERD complications.

Published

2021

38. Multi-omics of the esophageal microenvironment identifies signatures associated with progression of Barrett's esophagus.

Author

Deshpande NP, Riordan SM, Gorman CJ, Nielsen S, Russell TL, Correa-Ospina C, Fernando BSM, Waters SA, Castaño-Rodríguez N, Man SM, Tedla N, Wilkins MR, and Kaakoush NO

Subjects

Adult, Barrett Esophagus pathology, Epithelial Cells metabolism, Epithelial Cells pathology, Esophagus microbiology, Esophagus pathology, Female, Gastroesophageal Reflux complications, Gastroesophageal Reflux etiology, Gene Expression Profiling, Gram-Negative Bacterial Infections complications, Gram-Negative Bacterial Infections microbiology, Host-Pathogen Interactions genetics, Humans, Macrophages immunology, Macrophages metabolism, Male, Mast Cells immunology, Mast Cells metabolism, Metaplasia, Microbiota, Middle Aged, Models, Biological, RNA, Ribosomal, 16S, Barrett Esophagus etiology, Barrett Esophagus metabolism, Biomarkers, Cellular Microenvironment genetics, Disease Susceptibility, Esophagus metabolism

Abstract

Background: The enrichment of Gram-negative bacteria of oral origin in the esophageal microbiome has been associated with the development of metaplasia. However, to date, no study has comprehensively assessed the relationships between the esophageal microbiome and the host., Methods: Here, we examine the esophageal microenvironment in gastro-esophageal reflux disease and metaplasia using multi-omics strategies targeting the microbiome and host transcriptome, followed by targeted culture, comparative genomics, and host-microbial interaction studies of bacterial signatures of interest., Results: Profiling of the host transcriptome from esophageal mucosal biopsies revealed profound changes during metaplasia. Importantly, five biomarkers showed consistent longitudinal changes with disease progression from reflux disease to metaplasia. We showed for the first time that the esophageal microbiome is distinct from the salivary microbiome and the enrichment of Campylobacter species as a consistent signature in disease across two independent cohorts. Shape fitting and matrix correlation identified associations between the microbiome and host transcriptome profiles, with a novel co-exclusion relationship found between Campylobacter and napsin B aspartic peptidase. Targeted culture of Campylobacter species from the same cohort revealed a subset of isolates to have a higher capacity to survive within primary human macrophages. Comparative genomic analyses showed these isolates could be differentiated by specific genomic features, one of which was validated to be associated with intracellular fitness. Screening for these Campylobacter strain-specific signatures in shotgun metagenomics data from another cohort showed an increase in prevalence with disease progression. Comparative transcriptomic analyses of primary esophageal epithelial cells exposed to the Campylobacter isolates revealed expression changes within those infected with strains with high intracellular fitness that could explain the increased likelihood of disease progression., Conclusions: We provide a comprehensive assessment of the esophageal microenvironment, identifying bacterial strain-specific signatures with high relevance to progression of metaplasia., (© 2021. The Author(s).)

Published

2021

39. Molecular phenotyping reveals the identity of Barrett's esophagus and its malignant transition.

Author

Nowicki-Osuch K, Zhuang L, Jammula S, Bleaney CW, Mahbubani KT, Devonshire G, Katz-Summercorn A, Eling N, Wilbrey-Clark A, Madissoon E, Gamble J, Di Pietro M, O'Donovan M, Meyer KB, Saeb-Parsy K, Sharrocks AD, Teichmann SA, Marioni JC, and Fitzgerald RC

Subjects

Barrett Esophagus genetics, Barrett Esophagus metabolism, Cardia chemistry, Cell Differentiation, Cell Lineage, Cell Transformation, Neoplastic, Epigenesis, Genetic, Epithelial Cells cytology, Epithelial Cells metabolism, Esophagus cytology, Esophagus metabolism, Exocrine Glands chemistry, Exocrine Glands cytology, Hepatocyte Nuclear Factor 4 metabolism, Humans, Keratin-7 analysis, Metaplasia, Phenotype, Proto-Oncogene Proteins c-myc metabolism, RNA-Seq, Single-Cell Analysis, Transcription, Genetic, Transcriptome, Adenocarcinoma pathology, Barrett Esophagus pathology, Cardia cytology, Esophageal Neoplasms pathology, Esophagus pathology

Abstract

The origin of human metaplastic states and their propensity for cancer is poorly understood. Barrett's esophagus is a common metaplastic condition that increases the risk for esophageal adenocarcinoma, and its cellular origin is enigmatic. To address this, we harvested tissues spanning the gastroesophageal junction from healthy and diseased donors, including isolation of esophageal submucosal glands. A combination of single-cell transcriptomic profiling, in silico lineage tracing from methylation, open chromatin and somatic mutation analyses, and functional studies in organoid models showed that Barrett's esophagus originates from gastric cardia through c-MYC and HNF4A-driven transcriptional programs. Furthermore, our data indicate that esophageal adenocarcinoma likely arises from undifferentiated Barrett's esophagus cell types even in the absence of a pathologically identifiable metaplastic precursor, illuminating early detection strategies., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2021

40. HOXA13 in etiology and oncogenic potential of Barrett's esophagus.

Author

Janmaat VT, Nesteruk K, Spaander MCW, Verhaar AP, Yu B, Silva RA, Phillips WA, Magierowski M, van de Winkel A, Stadler HS, Sandoval-Guzmán T, van der Laan LJW, Kuipers EJ, Smits R, Bruno MJ, Fuhler GM, Clemons NJ, and Peppelenbosch MP

Subjects

Adult, Animals, Barrett Esophagus metabolism, Gastrointestinal Neoplasms genetics, Gastrointestinal Neoplasms metabolism, Gastrointestinal Tract metabolism, Gene Expression Profiling methods, Gene Expression Regulation, Homeodomain Proteins metabolism, Humans, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Multigene Family genetics, RNA-Seq methods, Mice, Barrett Esophagus genetics, Carcinogenesis genetics, Homeodomain Proteins genetics, Oncogenes genetics

Abstract

Barrett's esophagus in gastrointestinal reflux patients constitutes a columnar epithelium with distal characteristics, prone to progress to esophageal adenocarcinoma. HOX genes are known mediators of position-dependent morphology. Here we show HOX collinearity in the adult gut while Barrett's esophagus shows high HOXA13 expression in stem cells and their progeny. HOXA13 overexpression appears sufficient to explain both the phenotype (through downregulation of the epidermal differentiation complex) and the oncogenic potential of Barrett's esophagus. Intriguingly, employing a mouse model that contains a reporter coupled to the HOXA13 promotor we identify single HOXA13-positive cells distally from the physiological esophagus, which is mirrored in human physiology, but increased in Barrett's esophagus. Additionally, we observe that HOXA13 expression confers a competitive advantage to cells. We thus propose that Barrett's esophagus and associated esophageal adenocarcinoma is the consequence of expansion of this gastro-esophageal HOXA13-expressing compartment following epithelial injury.

Published

2021

41. Forkhead box F1 induces columnar phenotype and epithelial-to-mesenchymal transition in esophageal squamous cells to initiate Barrett's like metaplasia.

Author

De A, Zhou J, Liu P, Huang M, Gunewardena S, Mathur SC, Christenson LK, Sharma M, Zhang Q, and Bansal A

Subjects

Aged, Barrett Esophagus metabolism, Cell Line, Tumor, Epithelial Cells metabolism, Esophagus cytology, Esophagus metabolism, Humans, Middle Aged, Barrett Esophagus etiology, Epithelial-Mesenchymal Transition, Forkhead Transcription Factors metabolism

Abstract

Multiple genome-wide association studies (GWAS) have linked Forkhead Box F1 (FOXF1) to Barrett's esophagus (BE). Understanding whether FOXF1 is involved in initiation of Barrett's metaplasia could allow FOXF1 to be used for risk stratification and for therapy. Two-dimensional cell cultures and three-dimensional organoid cultures and well-annotated human biopsies were used to determine the role of FOXF1 in BE pathogenesis. Multiple established esophageal squamous and BE cell lines were tested in gain- and loss-of-function studies. Initiation of a BE-like metaplastic change was evaluated by measuring characteristic cytokeratins and global gene expression profiling and by culturing organoids. Epithelial-mesenchymal transition (EMT) was evaluated by immunostaining for E-cadherin, vimentin and Snail, and by cell motility assay. Columnar esophageal epithelium of BE patients exhibited higher expression of FOXF1 compared to normal squamous esophageal epithelium of GERD patients (P < 0.001). Acidic bile salts induced nuclear FOXF1 in esophageal squamous cells. FOXF1 overexpression in normal esophageal squamous cells: (a) increased columnar cytokeratins and decreased squamous cytokeratins, (b) converted squamous organoids to glandular organoids, and (c) switched global gene profiles to resemble that of human BE epithelium (P = 2.1685e - 06 for upregulated genes and P = 8.3378e - 09 for downregulated genes). FOXF1 inhibition in BE cell lines led to loss of BE differentiation markers, CK7, and mucin 2. Also, FOXF1 induced EMT and promoted cell motility in normal esophageal squamous epithelial cells. FOXF1-induced genes mapped to pathways such as Cancer, Cellular Assembly and Organization, DNA Replication, Recombination, and Repair. In conclusion, FOXF1 promotes a BE-like columnar phenotype and cell motility in esophageal squamous epithelial cells, which may have a critical role in BE development. FOXF1 should be studied further as a biomarker for BE and as a target for BE treatment.

Published

2021

42. Notch signaling drives development of Barrett's metaplasia from Dclk1-positive epithelial tuft cells in the murine gastric mucosa.

Author

Kunze B, Middelhoff M, Maurer HC, Agibalova T, Anand A, Bührer AM, Fang HY, Baumeister T, Steiger K, Strangmann J, Schmid RM, Wang TC, and Quante M

Subjects

Adenocarcinoma metabolism, Animals, Carcinogenesis metabolism, Cardia metabolism, Cell Differentiation physiology, Cell Proliferation physiology, Disease Models, Animal, Esophageal Neoplasms metabolism, Esophagus metabolism, Mice, Stem Cells metabolism, Wnt Signaling Pathway physiology, Barrett Esophagus metabolism, Doublecortin-Like Kinases metabolism, Epithelial Cells metabolism, Gastric Mucosa metabolism, Metaplasia metabolism, Receptors, Notch metabolism, Signal Transduction physiology

Abstract

Barrett's esophagus (BE) is a precursor to esophageal adenocarcinoma (EAC), but its cellular origin and mechanism of neoplastic progression remain unresolved. Notch signaling, which plays a key role in regulating intestinal stem cell maintenance, has been implicated in a number of cancers. The kinase Dclk1 labels epithelial post-mitotic tuft cells at the squamo-columnar junction (SCJ), and has also been proposed to contribute to epithelial tumor growth. Here, we find that genetic activation of intracellular Notch signaling in epithelial Dclk1-positive tuft cells resulted in the accelerated development of metaplasia and dysplasia in a mouse model of BE (pL2.Dclk1.N2IC mice). In contrast, genetic ablation of Notch receptor 2 in Dclk1-positive cells delayed BE progression (pL2.Dclk1.N2fl mice), and led to increased secretory cell differentiation. The accelerated BE progression in pL2.Dclk1.N2IC mice correlated with changes to the transcriptomic landscape, most notably for the activation of oncogenic, proliferative pathways in BE tissues, in contrast to upregulated Wnt signalling in pL2.Dclk1.N2fl mice. Collectively, our data show that Notch activation in Dclk1-positive tuft cells in the gastric cardia can contribute to BE development.

Published

2021

43. Lipid droplet biogenesis and COX-2 pathway activation are triggered by Barrett's esophagus and adenocarcinoma, but not esophageal squamous cell carcinoma risk factors.

Author

Carrossini N, Meireles Da Costa N, Andrade-Barreto E, Sousa VPL, Nicolau-Neto P, Souza-Santos PT, Mansur GR, Wernersbach L, Bozza PT, Viola JPB, and Ribeiro Pinto LF

Subjects

Adenocarcinoma pathology, Barrett Esophagus pathology, Cell Line, Esophageal Neoplasms pathology, Esophageal Squamous Cell Carcinoma pathology, Esophagus metabolism, Esophagus pathology, Gastroesophageal Reflux metabolism, Gastroesophageal Reflux pathology, Humans, Inflammation metabolism, Inflammation pathology, Risk Factors, Adenocarcinoma metabolism, Barrett Esophagus metabolism, Cyclooxygenase 2 metabolism, Esophageal Neoplasms metabolism, Esophageal Squamous Cell Carcinoma metabolism, Lipid Droplets metabolism, Signal Transduction physiology

Abstract

Esophageal cancer (EC) is an aggressive disease, presenting two main histological subtypes: adenocarcinoma (EAC) and squamous cell carcinoma (ESCC). The two EC subtypes widely differ concerning virtually all factors. ESCC development is mainly associated with tobacco and alcohol abuse, whereas obesity and chronic gastroesophageal reflux disease (GERD) are important risk factors not only for EAC, but also for for Barrett's esophagus (BE), an intestinal metaplasia that precedes EAC. Obesity triggers ectopic lipid droplets (LD) accumulation in non-adipose tissues. LD are organelles involved in cell metabolism, signaling, proliferation and production of inflammatory mediators. Therefore, the aim of this work was to investigate LD occurrence and role in EC. This study shows progressive LD levels increase along EAC development, in esophageal samples from non-obese through obese individuals, as well as BE, and EAC patients, whereas no significant changes were observed in ESCC samples, when compared to non-tumor samples. Additionally, in order to mimic BE and EAC risk factors exposure, a non-tumor esophageal cell line was incubated with oleic acid (OA) and acidified medium and/or deoxycholic acid (DCA), revealing a significant increment in LD amount as well as in COX-2 and CXCL-8 expression, and in IL-8 secretion. Further, COX-2 expression and LD amount presented a significant positive correlation and were detected co-localized in EAC, but not in ESCC, suggesting that LD may be the site for eicosanoid production in EAC. In conclusion, this study shows that obesity, and BE- and EAC-associated inflammatory stimuli result in a gradual increase of LD, that may be responsible for orchestrating inflammatory mediators' production and/or action, thus contributing to BE and EAC genesis and progression.

Published

2021

44. Gastrointestinal pharmacology: practical tips for the esophagologist.

Author

Scarpignato C, Sloan JA, Wang DH, and Hunt RH

Subjects

Barrett Esophagus metabolism, Esophageal Mucosa metabolism, Esophageal Mucosa pathology, Esophageal Neoplasms metabolism, Gastroesophageal Reflux metabolism, Humans, Barrett Esophagus drug therapy, Drug Resistance, Neoplasm drug effects, Esophageal Neoplasms drug therapy, Gastroesophageal Reflux drug therapy, Gastrointestinal Motility drug effects, Proton Pump Inhibitors adverse effects, Proton Pump Inhibitors therapeutic use

Abstract

Gastroesophageal reflux disease (GERD) is primarily a motor disorder, and its pathogenesis is multifactorial. As a consequence, treatment should be able to address the underlying pathophysiology. Proton pump inhibitors (PPIs) are the mainstay of medical therapy for GERD, but these drugs only provide the control of symptoms and lesions without curing the disease. However, continuous acid suppression with PPIs is recommended for patients with Barrett's esophagus because of their potential chemopreventive effects. In addition to the antisecretory activity, these compounds display several pharmacological properties, often overlooked in clinical practice. PPIs can indeed affect gastric motility, exert a mucosal protective effect, and an antioxidant, anti-inflammatory, and antineoplastic activity, also protecting cancer cells from developing chemo- or radiotherapeutic resistance. Even in the third millennium, current pharmacologic approaches to address GERD are limited. Reflux inhibitors represent a promise unfulfilled, effective and safe prokinetics are lacking, and antidepressants, despite being effective in selected patients, give rise to adverse events in a large proportion of them. While waiting for new drug classes (like potassium-competitive acid blockers), reassessing old drugs (namely alginate-containing formulations), and paving the new avenue of esophageal mucosal protection are, at the present time, the only reliable alternatives to acid suppression., (© 2020 New York Academy of Sciences.)

Published

2020

45. Recent insights into the biology of Barrett's esophagus.

Author

Badgery H, Chong L, Iich E, Huang Q, Georgy SR, Wang DH, and Read M

Subjects

Humans, Metaplasia, Adenocarcinoma metabolism, Adenocarcinoma pathology, Adenocarcinoma physiopathology, Barrett Esophagus metabolism, Barrett Esophagus pathology, Barrett Esophagus physiopathology, Esophageal Mucosa metabolism, Esophageal Mucosa pathology, Esophageal Mucosa physiopathology, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Esophageal Neoplasms physiopathology, Goblet Cells metabolism, Goblet Cells pathology

Abstract

Barrett's esophagus (BE) is the only known precursor to esophageal adenocarcinoma (EAC), an aggressive cancer with a poor prognosis. Our understanding of the pathogenesis and Barrett's metaplasia is incomplete, and this has limited the development of new therapeutic targets and agents, risk stratification ability, and management strategies. This review outlines current insights into the biology of BE and addresses controversies surrounding cell of origin, cellular reprogramming theories, updates on esophageal epithelial barrier function, and the significance of goblet cell metaplasia and its association with malignant change. Further research into the basic biology of BE is vital as it will underpin novel therapies and improve our ability to predict malignant progression and help identify the minority of patients who will develop EAC., (© 2020 New York Academy of Sciences.)

Published

2020

46. Analysis of major bile acids in saliva samples of patients with Barrett's esophagus using high-performance liquid chromatography-electrospray ionization-mass spectrometry.

Author

Ďurč P, Dosedělová V, Foret F, Dolina J, Konečný Š, Himmelsbach M, Buchberger W, and Kubáň P

Subjects

Adult, Barrett Esophagus pathology, Female, Humans, Male, Middle Aged, Pilot Projects, Principal Component Analysis, Reference Standards, Reproducibility of Results, Signal Processing, Computer-Assisted, Barrett Esophagus metabolism, Bile Acids and Salts analysis, Chromatography, High Pressure Liquid methods, Saliva chemistry, Spectrometry, Mass, Electrospray Ionization methods

Abstract

A fast, non-invasive, high-performance liquid chromatographic screening method with electrospray ionization mass spectrometric detection was developed for the analysis of three major glycine-conjugated bile acids in human saliva. Using a mobile phase composed of 80% methanol and 0.1% formic acid, glycocholic, glycodeoxycholic, and glycochenodeoxycholic acids were separated in less than 4 minutes with sensitivity in the low nM range. Bile acids are thought to contribute to the pathology of various complications in gastroesophageal reflux disease, for instance, Barrett's esophagus, which may eventually lead to esophageal carcinoma. In this pilot study, samples of saliva obtained from 15 patients with Barrett's esophagus of various severities were compared to saliva samples from 10 healthy volunteers. Glycochenodeoxycholic acid was significantly elevated in the patients and principal component analysis of all bile acids could distinguish the most severe Barrett's esophagus patients. We also reported on the detection of glycochenodeoxycholic acid in exhaled breath condensate for the first time. The promising results of this pilot study warrant future investigation, aiming at non-invasive diagnostics of Barrett's esophagus susceptibility in patients with gastroesophageal reflux disease., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

47. CDX-2 Expression in Esophageal Biopsies Without Goblet Cell Intestinal Metaplasia May Be Predictive of Barrett's Esophagus.

Author

Saller J, Al Diffalha S, Neill K, Bhaskar RA, Oliveri C, Boulware D, Levine H, Kalvaria I, Corbett FS, Khazanchi A, Klapman J, and Coppola D

Subjects

Adenocarcinoma diagnosis, Adenocarcinoma metabolism, Adenocarcinoma pathology, Adult, Aged, Aged, 80 and over, Barrett Esophagus pathology, Biopsy, Disease Progression, Esophageal Neoplasms diagnosis, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Esophagoscopy, Esophagus pathology, Female, Humans, Immunohistochemistry, Male, Middle Aged, Proportional Hazards Models, Retrospective Studies, Barrett Esophagus metabolism, CDX2 Transcription Factor metabolism, Esophagus metabolism, Goblet Cells pathology

Abstract

Background: CDX-2 is a nuclear homeobox transcription factor not normally expressed in esophageal and gastric epithelia, reported to highlight intestinal metaplasia (IM) in the esophagus. Pathological absence of goblet cells at initial screening via hematoxylin and eosin (HE) and alcian blue (AB) staining results in patient exclusion from surveillance programs., Aims: This study aimed to determine whether non-goblet cell IM, as defined by CDX-2 positivity, can be considered to be a precursor to Barrett's esophagus (BE)., Methods: This study received IRB approval (17,284). Patients with gastroesophageal reflux disease (n = 181) who underwent upper-gastrointestinal endoscopy with biopsies of the distal esophagus to rule out BE using HE/AB staining and CDX-2 immunostaining were followed for 3 years. Initial and follow-up staining results were evaluated for age/sex., Results: Differences between development of goblet cell IM in CDX-2-negative and CDX-2-positive groups were evaluated. A Kaplan-Meier curve showed that, out of the 134 patients initially positive for CDX-2, 25 (18.7%) had developed goblet cell IM after 2 years and 106 (79.1%) after 3 years. Conversely, of the 47 patients initially negative for CDX-2, 8 (17.9%) developed goblet cell IM after 24 months and only 11 (23.8%) after 40 to 45 months (P = .049; age-adjusted Cox proportional hazard regression model)., Conclusion: In cases that are initially AB negative and CDX-2 positive, CDX-2 was demonstrated to have a potential prognostic utility for early detection of progression to BE. CDX-2 expression is significantly predictive for risk of goblet cell IM development 40 to 45 months after initial biopsy.

Published

2020

48. Independent Blinded Validation of a Tissue Systems Pathology Test to Predict Progression in Patients With Barrett's Esophagus.

Author

Davison JM, Goldblum J, Grewal US, McGrath K, Fasanella K, Deitrick C, DeWard AD, Bossart EA, Hayward SL, Zhang Y, Critchley-Thorne RJ, and Thota PN

Subjects

Adenocarcinoma metabolism, Adenocarcinoma pathology, Aged, Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, Barrett Esophagus metabolism, Biomarkers metabolism, Case-Control Studies, Cyclin-Dependent Kinase Inhibitor p16 metabolism, Cyclooxygenase 2 metabolism, Disease Progression, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Esophagus metabolism, Female, Humans, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Image Processing, Computer-Assisted, Keratin-20 metabolism, Leukocyte Common Antigens metabolism, Male, Microscopy, Fluorescence, Middle Aged, Multivariate Analysis, Prognosis, Proportional Hazards Models, Racemases and Epimerases metabolism, Receptor, ErbB-2 metabolism, Risk Assessment, Tumor Suppressor Protein p53 metabolism, Watchful Waiting, Adenocarcinoma epidemiology, Barrett Esophagus pathology, Esophageal Neoplasms epidemiology, Esophagus pathology

Abstract

Introduction: A risk prediction test was previously validated to predict progression to high-grade dysplasia (HGD) and esophageal adenocarcinoma (EAC) in patients with Barrett's esophagus (BE). The aim of our study was to independently validate this test to predict the risk of progression to HGD/EAC in BE patients with nondysplastic (ND), indefinite for dysplasia and low-grade dysplasia (LGD)., Methods: A single-blinded, case-control study was conducted to stratify patients with BE as low, intermediate, or high risk for progression to HGD/EAC within 5 years using a previously described risk prediction test. Patients with BE who progressed to HGD/EAC after at least 1 year (n = 58) were matched to patients undergoing surveillance without progression (n = 210, median surveillance 7 years). Baseline biopsies with subspecialist diagnoses of ND, indefinite for dysplasia, or LGD were tested in a blinded manner, and the predictive performance of the test was assessed., Results: This risk prediction test stratified patients with BE based on progression risk with the high-risk group at 4.7-fold increased risk for HGD/EAC compared with the low-risk group (95% confidence interval 2.5-8.8, P < 0.0001). Prevalence-adjusted positive predictive value at 5 years was 23%. The high-risk class and male sex provided predictive power that was independent of pathologic diagnosis, age, segment length, and hiatal hernia. Patients with ND BE who scored high risk progressed at a higher rate (26%) than patients with subspecialist-confirmed LGD (21.8%) at 5 years., Discussion: A risk prediction test identifies patients with ND BE who are at high risk for progression to HGD/EAC and may benefit from early endoscopic therapy or increased surveillance.

Published

2020

49. Glucocorticoid receptor and serum- and glucocorticoid-induced kinase-1 in esophageal adenocarcinoma and adjacent Barrett's esophagus.

Author

Gokon Y, Fujishima F, Taniyama Y, Ishida H, Yamagata T, Sawai T, Uzuki M, Ichikawa H, Itakura Y, Takahashi K, Yajima N, Hagiwara M, Nishida A, Ozawa Y, Sakuma T, Sakamoto K, Zuguchi M, Saito M, Kamei T, and Sasano H

Subjects

Aged, Biomarkers, Tumor metabolism, Female, Humans, Male, Middle Aged, Adenocarcinoma metabolism, Barrett Esophagus metabolism, Esophageal Neoplasms metabolism, Immediate-Early Proteins metabolism, Protein Serine-Threonine Kinases metabolism, Receptors, Glucocorticoid metabolism

Abstract

Barrett's esophagus (BE) is a consequence of gastroesophageal reflux disease and is predisposed to esophageal adenocarcinoma (EAC). EAC is an exemplar model of inflammation-associated cancer. Glucocorticoids suppress inflammation through glucocorticoid receptor (GR) and serum- and glucocorticoid-induced kinase-1 (Sgk1) expressions. Therefore, we immunolocalized GR and Sgk1 in EAC and the adjacent BE tissues and studied their association with clinical disease course in 87 patients with EAC who underwent surgical resection (N = 58) or endoscopic submucosal dissection (N = 29). Low GR and Sgk1 expressions in adjacent BE tissues were associated with adverse clinical outcomes (P = 0.0008 and 0.034, respectively). Patients with low Sgk1 expression in EAC cells exhibited worse overall survival (P = 0.0018). In multivariate Cox regression analysis, low GR expression in the adjacent nonmalignant BE tissues was significantly associated with worse overall survival (P = 0.023). The present study indicated that evaluation of GR and Sgk1 expressions in both the EAC cells and adjacent nonmalignant BE tissues could help to predict clinical outcomes following endoscopic and surgical treatments. In particular, the GR status in BE tissues adjacent to EAC was an independent prognostic factor., (© 2020 Japanese Society of Pathology and John Wiley & Sons Australia, Ltd.)

Published

2020

50. Chronic High-Fat Diet Induces Early Barrett's Esophagus in Mice through Lipidome Remodeling.

Author

Molendijk J, Nguyen TM, Brown I, Mohamed A, Lim Y, Barclay J, Hodson MP, Hennessy TP, Krause L, Morrison M, and Hill MM

Subjects

Adenocarcinoma metabolism, Animals, Barrett Esophagus metabolism, Barrett Esophagus pathology, Deoxycholic Acid toxicity, Esophageal Mucosa metabolism, Esophageal Mucosa pathology, Esophageal Neoplasms metabolism, Esophageal Neoplasms pathology, Gastric Mucosa metabolism, Gastric Mucosa pathology, Gastrointestinal Microbiome, Male, Mice, Mice, Inbred C57BL, Adenocarcinoma etiology, Barrett Esophagus etiology, Diet, High-Fat adverse effects, Disease Models, Animal, Esophageal Neoplasms etiology, Lipid Metabolism

Abstract

Esophageal adenocarcinoma (EAC) incidence has been rapidly increasing, potentially associated with the prevalence of the risk factors gastroesophageal reflux disease (GERD), obesity, high-fat diet (HFD), and the precursor condition Barrett's esophagus (BE). EAC development occurs over several years, with stepwise changes of the squamous esophageal epithelium, through cardiac metaplasia, to BE, and then EAC. To establish the roles of GERD and HFD in initiating BE, we developed a dietary intervention model in C57/BL6 mice using experimental HFD and GERD (0.2% deoxycholic acid, DCA, in drinking water), and then analyzed the gastroesophageal junction tissue lipidome and microbiome to reveal potential mechanisms. Chronic (9 months) HFD alone induced esophageal inflammation and metaplasia, the first steps in BE/EAC pathogenesis. While 0.2% deoxycholic acid (DCA) alone had no effect on esophageal morphology, it synergized with HFD to increase inflammation severity and metaplasia length, potentially via increased microbiome diversity. Furthermore, we identify a tissue lipid signature for inflammation and metaplasia, which is characterized by elevated very-long-chain ceramides and reduced lysophospholipids. In summary, we report a non-transgenic mouse model, and a tissue lipid signature for early BE. Validation of the lipid signature in human patient cohorts could pave the way for specific dietary strategies to reduce the risk of BE in high-risk individuals.

Published

2020