Project description:To further investigate the potential molecular basis of the protective effects of MASM on irradiation (6.5Gy) damage, gene expression analysis was conducted on rats liver tissues using microarrays. Pre-treatment with MASM prevented differential expression of 53% (766 genes) of 1445 genes differentially expressed in response to radiation. Pathway enrichment analysis indicated that these genes were mainly involved in a total of 21 pathways, such as metabolic pathways, pathways in cancer, and MAPK signaling pathway. The rats were randomly assigned to one of the three following treatment groups (10-12 animals per group): normal control, radiation and MASM dose (30 mg/kg body weight/day) + radiation. MASM dissolved in double distilled water were administered intragastrically to the male animals for 3 consecutive days before irradiation. Radiation induced gene expression in rat liver was measured at 24 hours after 6.5 Gy exposure.

Project description:While modern radiotherapy technologies can precisely deliver higher doses of radiation to tumors; thus, reducing overall radiation exposure to normal tissues, moderate dose and normal tissue toxicity still remains a significant limitation. The present study profiled the global effects on transcript and miR expression in Human Coronary Artery Endothelial Cells (HCAECs) using single-dose irradiation (SD, 10Gy) or multi-fractionated irradiation (MF, 2Gy x 5) regimens. Longitudinal timepoints were collected after a SD or final dose of MF irradiation for analysis using Agilent Human Gene Expression and miRNA microarray platforms. Compared to SD, the exposure to MF resulted in robust transcript and miR expression changes in terms of the number and magnitude. For data analysis, statistically significant mRNAs (2-fold) and miRs (1.5-fold) were processed by Ingenuity Pathway Analysis (IPA) to uncover miRs associated with target transcripts from several cellular pathways post-irradiation. Interestingly, MF radiation induced a cohort of mRNAs and miRs that coordinate the induction of immune response pathway under tight regulation. Additionally, mRNAs and miRs associated with DNA replication, recombination and repair, apoptosis, cardiovascular events and angiogenesis were revealed. Human Coronary Artery Endothelial Cells (HCAECs) were irradiated in a PANTAK high frequency X-ray generator (Precision X-ray Inc., N. Bedford, CT), operated at 300kV and 10MA. The dose rate was 1.6 Gy per min. Cells were plated into T75cm2 flasks (1-1.5 x 10^6 for single dose radiation and 0.6-0.8 x 10^6 for fractionated radiation). After 24h, cells were exposed to a total of 10 Gy radiation administered either as a single-dose radiation (SD), or as multi-fractionated radiation of 2 Gy x 5 (MF). These non-isoeffective doses were selected to simulate clinical hypofractionated and conventionally fractionated radiotherapy regimens. For the MF protocol, cells were exposed to 2 Gy radiation twice a day, at 6h interval. The cells were approximately 90% confluent at the time of harvesting. For both protocols, radiation-induced changes were analyzed at 6h and 24h after a SD and 6h and 24h after the final dose of fractionated irradiation. Separate controls were maintained for SD and MF radiation protocols.

Project description:While modern radiotherapy technologies can precisely deliver higher doses of radiation to tumors; thus, reducing overall radiation exposure to normal tissues, moderate dose and normal tissue toxicity still remains a significant limitation. The present study profiled the global effects on transcript and miR expression in Human Coronary Artery Endothelial Cells (HCAECs) using single-dose irradiation (SD, 10Gy) or multi-fractionated irradiation (MF, 2Gy x 5) regimens. Longitudinal timepoints were collected after a SD or final dose of MF irradiation for analysis using Agilent Human Gene Expression and miRNA microarray platforms. Compared to SD, the exposure to MF resulted in robust transcript and miR expression changes in terms of the number and magnitude. For data analysis, statistically significant mRNAs (2-fold) and miRs (1.5-fold) were processed by Ingenuity Pathway Analysis (IPA) to uncover miRs associated with target transcripts from several cellular pathways post-irradiation. Interestingly, MF radiation induced a cohort of mRNAs and miRs that coordinate the induction of immune response pathway under tight regulation. Additionally, mRNAs and miRs associated with DNA replication, recombination and repair, apoptosis, cardiovascular events and angiogenesis were revealed. Human Coronary Artery Endothelial Cells (HCAECs) were irradiated in a PANTAK high frequency X-ray generator (Precision X-ray Inc., N. Bedford, CT), operated at 300kV and 10MA. The dose rate was 1.6 Gy per min. Cells were plated into T75cm2 flasks (1-1.5 x 10^6 for single dose radiation and 0.6-0.8 x 10^6 for fractionated radiation). After 24h, cells were exposed to a total of 10 Gy radiation administered either as a single-dose radiation (SD), or as multi-fractionated radiation of 2 Gy x 5 (MF). These non-isoeffective doses were selected to simulate clinical hypofractionated and conventionally fractionated radiotherapy regimens. For the MF protocol, cells were exposed to 2 Gy radiation twice a day, at 6h interval. The cells were approximately 90% confluent at the time of harvesting. For both protocols, radiation-induced changes were analyzed at 6h and 24h after a SD and 6h and 24h after the final dose of fractionated irradiation. Separate controls were maintained for SD and MF radiation protocols.

Project description:TWEAK/Fn14 signaling may regulate the expression of genes involved in epithelial repair and mucosal inflammation. Comparing the gene signatures in WT and TWEAK KO mice will inform the biology of TWEAK/Fn14 pathway in the GI tract. Mice were treated with 3 Gy of ionizing radiation. After 6h and 24h mice were sacrificed, and whole colon and jejunum were harvested, and RNA was isolated from these tissues. Each CEL file represents a different mouse.

Project description:Currently there is growing concern with respect to scenarios where people are likely to be presented with radiation exposure along with many kinds of other injuries such as trauma and infection. The potential for such scenarios was brought to reality with the events and aftermath of the Fukushima nuclear disaster in Japan. As such medical complications arising from such exposures would be poorly dealt with as no evidence-based guidelines exist for their rehabilitation or recovery. Our research intends to differentially characterize combined radiation and burn injuries and identify novel pathways and biomarkers. Such findings will lead to better medical practices in the diagnosis, care and rehabilitation of affected individuals. The study includes four groups of mice: 1) Control sham mice group (n=4), 2) Skin burn injury mice group (n=6), 3) Radiation injury mice group (n=6), 4) Combined radiation and burn injury mice group (n=6). We propose to characterize the effects of combined radiation and burn injuries using microRNA microarray analysis. Our primary aim is to identify novel molecular pathways and biomarkers specific to whole blood samples (serum) from mice exposed to combined radiation and burn injuries. B6D2F1/J female mice will be used. 30 days following combined radiation and burn injuries arterial blood will be harvested from euthanized mice. 200ul of serum from whole blood samples will be used for microRNA microarray experiments (Affymetrix).

Project description:The objective of our study was to search for survival biomarkers (SB) and treatment response monitoring biomarkers (TRMB) in the urinary proteome of dogs with renal disease secondardy to canine leishmaniosis (CanL),

Project description:Deregulated accumulation of myofibroblasts (MF) is central to liver fibrosis pathogenesis, but the mechanisms controlling myofibroblast fate remain poorly understood. Here we investigated whether Hedgehog (Hh) signaling regulates MF fate by modulating MF metabolism. We performed microarrays to screen hepatic stellate cells (HSC) for transition-associated changes in metabolism. To capture early and late events in their MF transition process, we compared gene expression in freshly isolated primary HSC with gene expression in the same cells after 7 days in culture. We analyzed total RNA from 3 replicates of HSC in the early transition or quiescent state (n=3) as well as in the late phase of transition (MF) (n=3).

Project description:Major advances have been made to develop an automated universal 384-well plate sample preparation platform with high reproducibility and adaptability for extraction of proteins from cells within a culture plate. An in-solution digest strategy is employed to generate peptides from the extracted proteins for LC-MS analysis in the 384-well plate. Method evaluation utilized HeLa cells cultured in the 384-well plate ranging from 500 – 10,000 cells. Digestion efficiency was excellent in comparison to the commercial digest peptides standard with minimal sample loss while improving sample preparation throughput by 20 – 40 fold. Analysis of six human cell types, which included two primary cell samples identified and quantified approximately 4,000 proteins for each sample in a single LC-MS/MS injection with as little as 100 – 10,000 cells depending on cell type demonstrating universality of the platform. Implementation of the comprehensive 384-well format protocol for processing cells to clean digested peptides enables large-scale biomarker validation and compound screening through proteomic analysis.

Project description:Transcriptional profiling of intestinal epithelial cells expressing either Negative, Sublow, Low or High levels of the Sox9-EGFP reporter transgene FACS-isolated from jejunum of non-irradiated mice or at 5 days after 14Gy abdominal irradiation. In both groups, mice were treated for 5 consecutive days with either IGF1 or vehicle via mini-pumps (Alzet 1007D, IGF1 at 10mg/ml) implanted subcutaneously immediately following radiation. 4 distinct cell populations FACS-isolated based on levels of expression of the Sox9-EGFP reporter transgene (Sox9-EGFP Negative, Sublow, Low and High cells). 4 conditions: Non-irradiated/vehicle vs Non-irradiated/IGF1 vs Irradiated/vehicle vs Irradiated/IGF1. Biological replicates: 7 independent non-irradiated mice treated with vehicle - 3 independent non-irradiated mice treated for 5 days with IGF1 - 3 independent irradiated mice studied at day 5 post-irradiation treated with vehicle - 3 independent irradiated mice studied at day 5 post-irradiation treated for 5 days with IGF1.

Project description:Methyl ketone production by P. putida with A. thaliana and switchgrass hydrolysates obtained by dilute acid pretreatment led to the identification of plant-derived amino acids, rather than mono-aromatics, as key stimulative components of these hydrolysates. Shotgun proteomics indicated that the amino acids had a specific inductive effect on proteins involved in fatty acid biosynthesis, leading to a 9-fold increase in methyl ketone titer when amending glucose-containing minimal medium with a defined set of amino acids.