Project description:The purpose of this study is to examine the transcriptomic profiles (RNAseq) of post-mortem brain tissue samples from patients who have died of sepsis compared to non-sepsis controls using two analytic approaches. Tissue samples originated from the Adult Changes in Thought study (ACT) brain bank. In order to determine cause of death, hospital charts for 89 ACT subjects who died while hospitalized were reviewed using a structured instrument for diagnosis of sepsis. RNA was extracted from 24 post-mortem parietal cortex tissue samples. RNA sequencing was performed on the 24 samples using Illumina's Hi-Seq platform. Raw data was exported, pre-processed, and analyzed by two methods, differential expression and weighted gene co-expression network analysis (WGCNA). 176 genes were differentially expressed with fold change of > 1.5 and adjusted p < 0.5. The top differentially expressed genes were immune-related. WGCNA reveled 6 modules were significantly correlated with sepsis. Significant nodules were enriched in terms associated with innate immunity, cytokines, DAMPs, synaptic function, ion channel function, neuronal growth, and T-cell signalling among others. These data suggest sepsis is associated with specific transcriptional responses in the human brain. These results provide support for previously identified targets as well as provide evidence to suggest investigation into new targets for mechanistic exploration of sepsis-associated brain injury.
Project description:Bulk RNAseq of kidneys from 5 months-old mice invalidated for Nphp1 which is the main gene responsible for Nephronophtisis, a genetic kidney disease
Project description:Adult endothelial cells (ECs) are known to possess organ-specific gene expression, morphology and function, but whether organ-specific EC gene expression is present during human development is not known. Here, we used bulk RNA-sequencing (RNA-seq) to interrogate the developing human intestine, lung, and kidney in order to identify organ-enriched EC-gene signatures. FACS was used to isolate EC (CD31+CD144+, n=13) and non-EC (CD31-CD144-, n=16) populations from these three organs, profiling at least 4 biological replicates for each organ system. The biological specimens profiled were between 11-20 gestational weeks. We also sequenced cultured human umbilical vein endothelial cells (HUVECs) via bulk RNAseq. Computational approaches were used to identify organ-specific EC-enriched gene signatures across human fetal lung, intestine, and kidney ECs.
Project description:bulk RNAseq of MUC1 kidney disease patient derived kidney epithelial cells compare to normal kidney cells. The goal of this study was to elucidate the biological mechanism underlying MUC1 kidney disease using MUC1 expressing cells derived from either a patient or a healthy individual kidney
Project description:We create catalogues of genes showing significant strain, parent-of-origin, dominance, sex effect in inbreds and reciprocal F1 hybrids of three wild-derived strains (CAST, PWK, WSB) across 4 different tissues (brain, kidney, liver, and lung) We used microarrays to validate the Brain results of RNAseq from inbred and F1 of 3 by 3 diallel. Brain, liver, kidney and lung RNA from the same mice used for RNAseq were hybridized to Affymetrix Mouse Gene 1.1 ST 96-Array Plate arrays using a GeneTitan instrument from Affymetrix.
Project description:Protein expression in the dorsolateral prefrontal cortex of normal, Alzheimer's and Asymptomatic Alzheimer's disease brain samples from the Banner Sun Health Research Institute collection