The HLA-DQ2/DQ8 genes explain approximately 40% of genetic component of disease, but remaining non-HLA genes have not yet been identified. We studied whole genome expression profile in duodenal mucosa of patients FDA approved Drug Library chemical structure with celiac disease using microarray analysis. Methods: Mucosal biopsies from duodenum were obtained and total RNA was extracted using RNeasy Kit (Qiagen) from 12 HLA-DQ2 positive celiac disease patients (villous abnormality Marsh grade 3b and 3c) and 12 controls. 500 ng of total RNA was used for whole genome expression profiling using Illumina HT-12.v4 BeadChips. Data was analysed using Illumina Genomic Studio, with ±13 (p = 0.05) as cut-off for differentially expressed genes. Results: In comparison
to controls, patients with celiac disease had 1202 differentially expressed genes (909 up-regulated and 303 down-regulated genes). Gene Ontology analysis using DAVID show enrichment of up-regulated genes in inflammatory pathways (IFNγ, TNFα, IL10, IL2RB, IL21), transcription factors (E2F5, E2F7, STAT1), receptors (TFRC, ECGF1), apoptosis
(GZMB, Caspase 3 and check details 5), metabolizing enzymes (OXCT1, ODC1, APOL6, APOO), proteinase MMP12, proteinase inhibitors,, cell division and proliferation, and protein transport. Genes related to drugs metabolizing enzymes such as CYP3A4, steroid hormones synthesis and retinol metabolism were down-regulated. Interestingly, we found up-regulation of prolyl endopeptidase (PREP) gene in celiac disease which encodes for the enzyme that cleaves the proline-rich gluten peptides. Conclusion: The gene expression analysis shows differentiatial expresion of a number of genes in celiac disease. The increased levels of PREP in celiac disease is very interesing and reflects an impaired function of PREP resulting in immunogenic gluten peptides. Further studies are required
to elucidate mechanisms controlling activation and expression of this gene and proten product in intestines of normal and celiac disease patients. Key Word(s): 1. Celiac disease; 2. Microarray; 3. Prolyl endopeptidase; Presenting Author: LIANG ZHU Additional Authors: YUNHONG WU, DEZHENG GONG, SHUZHUANG LI, QIUXIA LI, YING ZHOU, YUENING ZHANG, DONGDONG XU, ZIQING YIN, KAIDI QIN, XINGJUN LIU, LILI GUAN, QIONG WU, BO YUAN, DEQIN YU, selleck chemicals JINGZHOU MU, QIUYU CHEN, YUANHANG WU, SHUHANG GAO, ZIQI ZHAO, SHUHAO ZHANG, SIWEN LUO, YUAN ZOU Corresponding Author: LIANG ZHU Affiliations: Department of Physiology, Dalian Medical University; School of Public Health, Dalian Medical University; College of five-year clinical medicine, Dalian Medical University; Affiliated Hospital, Peking University Health Science Center; College of seven-year clinical medicine, Dalian Medical University Objective: The small intestinal injury of hemorrhagic shock can cause bacterial translocation and endotoxemia, resulting enterogenic infection, further stimulating the body’s inflammatory response, causing multiple organ dysfunction and even death.