Project description:Background: Ulcerative colitis (UC) and irritable bowel syndrome (IBS) are both chronic bowel diseases involving stress. To identify genes differentially expressed in UC and IBS, and to determine whether psychological stress can influence those gene expressions, we conducted this pilot study. Methods: Patients of UC, irritable bowel syndrome (IBS) and normal controls (NC) (n=5 in each group) were recruited. Perceived stress scale (PSS) was adopted to assess psychological stress level. Sigmoid mucosa samples were collected during colonoscopy. Differentially expressed genes (DEGs) of both mRNA and microRNA (DEG-mRNA and DEG-miRNA) were identified by RNA-Seq and microarray, respectively. Weighted gene co-expression network analysis (WGCNA), gene ontology, and microRNA target analysis were performed to identify regulatory relationships and pathways involved. Pearson correlation was performed to identify the relationship between DEGs and PSS score.

Project description:Activation of inflammatory pathways in human IBD. Leukocyte recruitment pathways including those for eosiniphils are activated in the affected colon in IBD. However, the functional implications of this are not known. We hypothesized that pro-inflammatory eotaxin (CCL11) dependent networks would be up regulated in the colon of pediatric patients with Ulcerative Colitis (UC), and that these would regulate eosinophil recruitment to the gut. These experiments tested differential colon gene expression relative to these pathways in healthy and UC samples. Colon biopsy samples were obtained from UC patients at diagnosis, and healthy controls. The global pattern of gene expression was determined using GeneSpring software, and biological networks were identified using Ingenuity software. Data suggested that a leukocyte recruitment network which includeds CCL11 is up regulated in pediatric UC at diagnosis. The degree of up regulation of these genes compared to healthy controls was remarkably conserved within the UC patient group, suggesting common mechanisms of mucosal inflammation. These experiments tested differential colon gene expression relative to these pathways in healthy and UC samples. Keywords: Single time point in UC and healthy controls.

Project description:Activation of inflammatory pathways in human IBD. Leukocyte recruitment pathways including those for eosiniphils are activated in the affected colon in IBD. However, the functional implications of this are not known. We hypothesized that pro-inflammatory eotaxin (CCL11) dependent networks would be up regulated in the colon of pediatric patients with Ulcerative Colitis (UC), and that these would regulate eosinophil recruitment to the gut. These experiments tested differential colon gene expression relative to these pathways in healthy and UC samples. Colon biopsy samples were obtained from UC patients at diagnosis, and healthy controls. The global pattern of gene expression was determined using GeneSpring software, and biological networks were identified using Ingenuity software. Data suggested that a leukocyte recruitment network which includeds CCL11 is up regulated in pediatric UC at diagnosis. The degree of up regulation of these genes compared to healthy controls was remarkably conserved within the UC patient group, suggesting common mechanisms of mucosal inflammation. These experiments tested differential colon gene expression relative to these pathways in healthy and UC samples. Keywords: Single time point in UC and healthy controls. Colon RNA was isolated from biopsies obtained from UC at diagnosis and healthy controls. Samples were obtained from the most proximal affected segment of colon. Microarray experiments were performed as described in the CCHMC microarray core, and data was analyzed as described above in the summary. The '107' internal control CEL files (for batches 1,2,4,5) used for ormalization of the Sample VALUEs are also contained within this data set.

Project description:Label-Free Quantitation of Differentially Expressed Proteins in Sh-QKI6 and sh-NC

Project description:Label-free quantitation of differentially expressed proteins in sh-RUFY1 and sh-NC，MAIPaCa-2 cells, one control, one knock down RUFY1, each group has three biological replicates ,and then do label-free protein mass spectrometry identification and quantification.

Project description:Cockayne Syndrome (CS) is a rare autosomal recessive inherited disorder characterized by a variety of clinical features including sensitivity to sunlight, progressive neurological abnormalities and appearance of premature aging. However, the pathogenesis of CS yet remains unclear due to the limitations of current disease models. Here we generate integration free-induced pluripotent stem cells (iPSCs) from CS patient fibroblast bearing mutations in CSB/ERCC6 and further derive isogenic gene corrected (GC)-iPSCs using CRISPR/Cas9 system. CS cellular phenotypes are recapitulated in CS mesenchymal stem cells (MSCs) and neural stem cells (NSCs), both of which display compromised susceptibility to DNA damage stress. We next map the transcriptome landscapes of CS- and GC-iPSCs and their adult stem/progenitor cell derivatives under ultraviolet (UV) and replicative stress, indicating the defects in DNA repair in confronting the acute and chronic stress contribute to CS-disease pathology. Through RNA sequencing analysis, we also identify a panel of potential targets for treating CS. Moreover, we generate clinical GC-MSCs displaying safer and superior stem cell activity in vitro and in vivo, which may provide better cell materials for future stem cell replacement therapy in CS-disease. Our models serve to facilitate the discovery of novel disease features and molecular mechanism, as well as lay a foundation for development of novel therapeutic strategies to treat CS.

Project description:Purpose: The purpose of this study was to identify cigarette smoke (CS) induced changes in circulatory microRNA (miRNA) in the plasma and ocular fluids of the Rhesus macaque and compare them to normal age-related changes, with the ultimate goal to develop an animal model of early dry age-related macular degeneration (AMD). AMD is a blinding disease having both genetic and environmental components, with cigarette smoke exposure (CS) as the leading environmental risk factor. Methods: All Rhesus macaques were housed at the California National Primate Research Center (CNPRC) at UC Davis. We used 6 animals of the same gender per group: Group 1 (young, 2-4 years old), Group 2 (old, 20-25 years old), Group 3 (middle aged, 9-12 years old) and Group 4 (9-12 years old, exposed to smoke for 1 month). Group 4 macaques were clinically assessed prior to and following CS exposure. Ocular fluids and plasma samples were collected, miRNA isolated, and expression data obtained from Affymetrix miRNA GeneTitan Array Plates 4.0, followed by bioinformatics analysis on Affymetrix Expression Console (EC) and Transcriptome Analysis Software (TAS), and using ANOVA. Results: Statistically significant changes were seen in miRNA populations in ocular fluids and plasma. In the plasma samples, 45 miRNAs were strongly upregulated (Fold Change >+/-1.5, p<0.05) upon CS exposure, while in aging monkeys different miRNAs in plasma were affected, and downregulated. In the vitreous, 3 miRNAs were downregulated in animals exposed to CS, intriguing enough two of them (miR-6794 and miR-6790) were the same ones downregulated with age. Retinal imaging using OCT did not show any significant changes in retinal thickness. Cotinine assays showed that animals received on average dose of 50-60 ng/ml cotinine, a marker for significant CS exposure. Conclusions: One month of CS exposure of Rhesus macaques resulted in significant changes of expression of circulatory miRNAs. We identified several CS related miRNA changes that are plasma or ocular fluid-specific. Healthy aging changes of miRNAs populations were different from the CS exposure induced changes in plasma, while the ones in vitreous were similar. This data will be utilized to develop an animal model of early dry AMD, using a monkey model exposed to CS.

Project description:Total RNA was extracted from HepG2 cells with sh-NC (n = 3) or sh-LINC01977 (n = 3). RNA samples were analyzed by RNA sequencing based on the manufacturer’s protocols. Briefly, Illumina HiSeq 4000 platform was used to sequence the RNA samples for the subsequent generation of raw data. R package was utilized to select genes with significantly differential expression based on fold change ≥2.0 and P≤0.05 between sh-NC and sh-LINC01977 cells. KEGG pathway and GSEA enrichment analysis were used for functional pathway analysis.

Project description:The monocarboxylate transporter 8 (Mct8) protein is a primary T4 and T3 (TH) transporter. Mutations of the MCT8-encoding, SLC16A2 gene alters thyroid function and thyroid hormone metabolism, and severely impairs neurodevelopment (Allan-Herndon-Dudley syndrome, AHDS). Mct8-deficient mice manifest thyroid alterations but lack neurological signs. It is thought that Mct8 deficiency in mice is compensated by T4 transport through the Slco1c1-encoded organic anion transporter polypeptide 1c1 (Oatp1c1). This allows local brain generation of sufficient T3 by the Dio2-encoded type 2 deiodinase (D2). The Slc16a2/Slco1c1 (MO) and Slc16a2/Dio2 (MD) double knock out mice lacking T4 and T3 transport, or T3 transport and T4 deiodination, would be more approriate models of AHDS. The goal of this work was to compare the cerebral hypothyroidism of systemic hypothyroidism (SH) caused by thyroid gland blockade with that present in the double KOs.

Project description:Total RNA was extracted from Hep3B cells with sh-NC (n = 3) or sh-lnc-CTHCC (n = 3). RNA samples were analyzed by RNA sequencing based on the manufacturer’s protocols. Briefly, Illumina HiSeq 4000 platform was used to sequence the RNA samples for the subsequent generation of raw data. R package was utilized to select genes with significantly differential expression based on fold change ≥2.0 and P≤0.05 between sh-NC and sh-lnc-CTHCC cells. KEGG pathway and GSEA enrichment analysis were used for functional pathway analysis.