Project description:In this study, we aimed to investigate whether all available P-CABs exhibit anti-inflammatory effects in gastroesophageal reflux-induced esophagitis and to elucidate the underlying mechanisms. Het-1A cells, normal esophageal epithelial cells, were treated with HCl (pH 4) for 30 min. Esomeprazole, a representative PPI, and three currently marketed P-CABs (vonoprazan, tegoprazan, and fexuprazan) were used for pretreatment. Total RNA sequencing was performed using Het-1A cells pretreated with 1% DMSO or fexuprazan, followed by exposure to HCl.

Project description:Non-Erosive Reflux Disease (NERD) is one of the most prominent and common forms of gastroesophageal reflux disease (GERD). We performed transcriptomic analysis (RNA sequencing) of esophageal biopsies from patients with NERD and healthy controls to increase understanding of complex cellular and molecular pathways in NERD.

Project description:Erosive Esophagitis (EE) is one of the common forms of gastroesophageal reflux disease (GERD). We performed transcriptomic analysis (RNA sequencing) of esophageal biopsies from patients with EE and healthy controls to increase understanding of complex cellular and molecular pathways in EE.

Project description:The involvment of bile acids such as deoxycholic acid (DCA) in gastro-esophageal reflux disease and subsequent Barrettâ??s metaplsia has been postulated. This study examines gene expression induced by exposure to DCA in esophageal cells and may be utilised in cross-comparisions with data derived from gene expression studies of Barrettâ??s esophagus and associated adenocarcinoma. Additionally this study may be used to assess divergence in response to bile acids by comparisons with similar study performed in SKGT4 barrett''s assocaited adenocarcinoma cell line. HET-1A cells were exposed to 300um DCA over 24 hours in duplicate experiments including matched timepoint controls

Project description:Identification of Novel Immune Cell Signature in Gastroesophageal Reflux Disease: Altered Mucosal Mast Cells and Dendritic Cell Profile. The mechanisms underlying the most troublesome symptom of gastroesophageal reflux disease (GERD), heartburn, remain incompletely understood. The pathogenesis of heartburn in GERD is likely to involve not only central mechanisms of sensitization including hypervigilance, but also multiple mucosal factors including maintenance of epithelial barrier integrity via tight junction proteins, expression of acid-sensing ion channels on nerve endings, and mucosal inflammation . We hypothesized that immune cell components play a regulatory role in mucosal mechanisms of sensitization in GERD, and aimed to identify differences in the immune cell signature and sensory mucosal markers between reflux phenotypes and healthy asymptomatic subjects.

Project description:To reveal the modified gene regulatory elements including transcription factors and enhancers in esophageal squamous carcinoma cells (ESCC), we performed Assay for Transposase-Accessible Chromatin using sequencing (ATAC-seq) with two ESCC cell lines, i.e. KYSE-30 and KYSE-150, and a non-cancerous esophageal epithelial cell line, HET-1A. This data showed that hyper-accessible regions in ESCC cells contained genes related with cancer hallmarks including DNA replication and angiogenesis. Further motif analysis suggested that AP-1 family transcription factors bind the hyper-accessible regions in KYSE-30 cells as compared to those in HET-1A cells.

Project description:Patients with Eosinophilic esophagitis (EoE) require long-lasting resolution of inflammation to prevent fibrostenosis and dysphagia. However, the dissociation between symptoms and histologic improvement suggests persistent molecular drivers despite remission. We aimed to characterize persisting molecular alterations in pediatric patients with EoE using tissue proteomics. Esophageal tissue biopsies (n=151) and clinical data were collected prospectively from pediatric patients with EoE (N=34), gastroesophageal reflux disease (GERD; N=10; inflammatory controls) or functional disorders (FD; N=20; non-inflammatory controls). Biospies (n=131) acquired from the diagnostic endoscopy and up to 7 follow-ups were considered for proteome analysis in patients with EoE, while for GERD and FD only biopsies from initial diagnosis were included. Histologically active EoE (15 eosinophils per high power field (hpf)) was diagnosed in 79 biopsies and 52 samples derived from patients with EoE in remission (15 eosinophils per hpf). After microdissection of the epithelium proteins were extracted from the esophageal tissue followed by a liquid chromatography-tandem mass spectrometry. Proteomic analysis identified 3,704 different proteins in total across all samples.

Project description:Background & Aims: Because the pathophysiology of GERD is not fully understood, presently used drug target only one or more of the known underlying mechanisms but are not fully effective in all patients. 1Identifying novel central targets may pave the way to develop more effective agents. Methods: A surgical model of sub-chronic reflux esophagitis was developed. Wistar rats were pretreated for 7days with omeprazole (standard proton pump inhibitor) or STW5 (herbal preparation of established efficacy in gastro-intestinal disorders). Treatment was continued for 10days after surgery, rats were sacrificed and esophagi excised. Histological, proteomic and transcriptomic methods were applied to identify reflux induced changes and treatment responses. Results: Protection against reflux induced inflammation was achieved by both test drugs. Both reduced macroscopic and microscopic lesions of the esophagi as well as most measured pro-inflammatory cytokines without significantly affecting NF-kB activity. Proteomic and transcriptomic analysis identified CINC1-3, MIP-1/3α, MIG, RANTES and IL-1β as highly relevant mediators in GERD. Other highly regulated genes were those of IL-6, CCL3, CCL7 and LOX-1. Many affected cyto-/chemokines were involved in the TREM-1 signaling pathway. The fatty acid receptor GPR84 was highly up-regulated in esophagitis but down-regulated by both drugs. This was confirmed by Western blot and immune-histochemical staining, showing for the first time expression of this receptor in esophageal tissue and its possible involvement in GERD. Conclusion: STW5 and omeprazole target a broad spectrum of molecules involved in immunological and inflammatory processes, of which IL-8 (CINC1-3), TREM-1 pathway and GPR84 are proposed to be most promising novel targets for the treatment of GERD. Refluxesophagitis was surgically induced. Wistar rats were pretreated for 7 days with omeprazole or STW5. Treatment was continued for 10days after surgery, rats were sacrificed and esophagi exiced. The study had 5 groups. Group 1: sham operated, Group 2: esophagitis group, untreated, Group3: esophagitis treated with STW5 0.5ml/kg. Group 4: esophagitis treated with STW5 2ml/kg. Group 5: esophagitis treated with Omeprazole (30mg/kg). 4 microarrays from esophageal tissue and blood from 4 animals of each group were performed.

Project description:Background & Aims: Because the pathophysiology of GERD is not fully understood, presently used drug target only one or more of the known underlying mechanisms but are not fully effective in all patients. 1Identifying novel central targets may pave the way to develop more effective agents. Methods: A surgical model of sub-chronic reflux esophagitis was developed. Wistar rats were pretreated for 7days with omeprazole (standard proton pump inhibitor) or STW5 (herbal preparation of established efficacy in gastro-intestinal disorders). Treatment was continued for 10days after surgery, rats were sacrificed and esophagi excised. Histological, proteomic and transcriptomic methods were applied to identify reflux induced changes and treatment responses. Results: Protection against reflux induced inflammation was achieved by both test drugs. Both reduced macroscopic and microscopic lesions of the esophagi as well as most measured pro-inflammatory cytokines without significantly affecting NF-kB activity. Proteomic and transcriptomic analysis identified CINC1-3, MIP-1/3α, MIG, RANTES and IL-1β as highly relevant mediators in GERD. Other highly regulated genes were those of IL-6, CCL3, CCL7 and LOX-1. Many affected cyto-/chemokines were involved in the TREM-1 signaling pathway. The fatty acid receptor GPR84 was highly up-regulated in esophagitis but down-regulated by both drugs. This was confirmed by Western blot and immune-histochemical staining, showing for the first time expression of this receptor in esophageal tissue and its possible involvement in GERD. Conclusion: STW5 and omeprazole target a broad spectrum of molecules involved in immunological and inflammatory processes, of which IL-8 (CINC1-3), TREM-1 pathway and GPR84 are proposed to be most promising novel targets for the treatment of GERD. Refluxesophagitis was surgically induced. Wistar rats were pretreated for 7 days with omeprazole or STW5. Treatment was continued for 10days after surgery, rats were sacrificed and esophagi exiced. The study had 5 groups. Group 1: sham operated, Group 2: esophagitis group, untreated, Group3: esophagitis treated with STW5 0.5ml/kg. Group 4: esophagitis treated with STW5 2ml/kg. Group 5: esophagitis treated with Omeprazole (30mg/kg). 4 microarrays from esophageal tissue and blood from 4 animals of each group were performed.

Project description:Background & Aims: Because the pathophysiology of GERD is not fully understood, presently used drug target only one or more of the known underlying mechanisms but are not fully effective in all patients. 1Identifying novel central targets may pave the way to develop more effective agents. Methods: A surgical model of sub-chronic reflux esophagitis was developed. Wistar rats were pretreated for 7days with omeprazole (standard proton pump inhibitor) or STW5 (herbal preparation of established efficacy in gastro-intestinal disorders). Treatment was continued for 10days after surgery, rats were sacrificed and esophagi excised. Histological, proteomic and transcriptomic methods were applied to identify reflux induced changes and treatment responses. Results: Protection against reflux induced inflammation was achieved by both test drugs. Both reduced macroscopic and microscopic lesions of the esophagi as well as most measured pro-inflammatory cytokines without significantly affecting NF-kB activity. Proteomic and transcriptomic analysis identified CINC1-3, MIP-1/3α, MIG, RANTES and IL-1β as highly relevant mediators in GERD. Other highly regulated genes were those of IL-6, CCL3, CCL7 and LOX-1. Many affected cyto-/chemokines were involved in the TREM-1 signaling pathway. The fatty acid receptor GPR84 was highly up-regulated in esophagitis but down-regulated by both drugs. This was confirmed by Western blot and immune-histochemical staining, showing for the first time expression of this receptor in esophageal tissue and its possible involvement in GERD. Conclusion: STW5 and omeprazole target a broad spectrum of molecules involved in immunological and inflammatory processes, of which IL-8 (CINC1-3), TREM-1 pathway and GPR84 are proposed to be most promising novel targets for the treatment of GERD.