Project description:Combination of reverse- and chemical genetic screens reveals a network of novel angiogenesis inhibitors and targets Drug target identification and validation are bottlenecks in the drug discovery process. Accordingly there is a need to develop new methods to facilitate the development of much-needed innovative drugs. We have combined reverse- and chemical genetics to identify new targets modulating blood vessel development. Through mRNA expression profiling in mice we identified 155 drugable gene products that were enriched in the microvasculature. Orthologs of 50 of these candidates were knocked down in a reverse genetic screen in zebrafish. 16 of the 50 genes encoded products that affected angiogenesis. In parallel, screening of 300 known drugs and pharmacologically active compounds in a human cell-based angiogenesis assay identified 11 angiogenesis inhibitors. Strikingly the reverse- and chemical genetic screens identified an overlap of three gene products of the same superfamily of serine/threonine protein phosphatases and two compounds targeting that family. Furthermore, the gene products identified in the reverse genetic screen comprise an interacting network with the targets of the chemical genetic screen. Thus, combining reverse- and chemical genetic screens is a powerful approach to identify novel biological processes and drug targets in vertebrates. Keywords: Cell-type comparison 24 samples were analyzed, representing 8 sample groups. In every sample group, three biological replicates were hybridized separately. The microarrays were hybridized with a Cy3-labeled sample and Cy-5 labeled Common Reference (Universal Mouse Reference RNA, cat. No.: 740100, Stratagene) simultaneously.

Project description:In the present study, we demonstrate that hMSCs migrate toward human keratinocytes as well as toward conditioned medium from cultured human keratinocytes (KCM) indicating that the hMSCs can respond to signals from keratinocytes. Incubation of hMSCs with KCM induced dermal myofibroblast like differentiation characterized by expression of cytoskeletal markers vinculin and F-actin filaments with increased expression of alpha smooth muscle actin. We then examined the therapeutic efficacy of hMSCs in wound healing in two animal models representing normal and chronic wound healing. Accelerated wound healing, as determined by quantitative measurements of wound area, was observed when hMSCs and KCM exposed hMSCs (KCMSCs) were injected near the site of incisional/excisional wounds in nondiabetic athymic and NOD/SCID mice as compared with normal human fetal lung fibroblast WI38 cells or saline control induced wound healing. Experiment Overall Design: Keratinocyte conditioned media exposed MSCs(KCMSCs) were used in the experiment in triplicates as follows; Experiment Overall Design: KCM_1 Experiment Overall Design: KCM_2 Experiment Overall Design: KCM_3 Experiment Overall Design: Where as MSCs were exposed to Keratinocyte growth media for 30 days were used as a controls as follow; Experiment Overall Design: KGM_1 Experiment Overall Design: KGM_2 Experiment Overall Design: KGM_3 Experiment Overall Design: All the samples were analyzed.

Project description:Analysis of 97 formalin-fixed, paraffin-embedded (FFPE) primary breast tumors using Illumina DASL microarray technology on a Custom Breast Cancer Panel and the Illumina Human Cancer Panel. Molecular markers between the pathology defined subtypes of breast cancer were assessed to hypothesize potential therapeutic targets specific to the subtypes Molecular Characterization of 97 primary breast tumor formalin-fixed, paraffin-embedded (FFPE) specimens including 24 triple negative (TN: ER-, PR-, HER2-), 9 HER2-positive (HER2+: ER-, PR-, HER2+), and 64 hormone receptor-positive (HR+: ER+ and/or PR+). 91 of the 97 specimens were characterized on the Illumina Human Cancer DASL Panel and 86 of 97 specimens were characterized on a custom Breast Cancer DASL Panel, 80 of these specimens were common to both the Human Cancer DASL Panel and the custom Breast Cancer DASL Panel.

Project description:Analysis of 143 formalin-fixed, paraffin-embedded (FFPE) primary breast tumors using a Custom Breast Cancer Panel and Human Cancer Panel for the DASL platform. Molecular markers between the pathology defined subtypes of breast cancer were assessed to hypothesize potential therapeutic targets specific to the subtypes Molecular Characterization of 143 primary breast carcinomas including 101 triple negative (TN: ER-, PR-, HER2-), 3 HER2-positive (HER2+: ER-, PR-, HER2+), and 39 hormone receptor-positive (HR+: ER+ and/or PR+)

Project description:Transcriptional analysis upon the overexpression of the folate gene cluster on a high copy plasmid when compared to an empty vector in the lactic acid bacterium L. plantarum. The transcriptional response was determined for both strains in continuous culture in the presence of glucose thereby using the hybridisation sceme as described in the data processing section. Keywords: comparative genomic hybridization Transcriptional analysis upon the overexpression of the folate gene cluster on a high copy plasmid when compared to an empty vector in the lactic acid bacterium L. plantarum. The transcriptional response was determined for both strains in continuous culture in the presence of glucose thereby using the hybridisation sceme as described in the data processing section.

Project description:Yeast cells were grown up in SD media containing all required amino acids. Each strain set was performed in triplicate. One set had no changes, the second set had 1mM methionine supplenting the media for the duration of growth and the third set was exposed to 0.5mM hydrogen peroxide for 15 minutes prior to harvesting

Project description:The secretion of metabolites by plant roots is a key determinant of microbial growth and colonisation. We have used Pisum sativum and its natural symbiont Rhizobium leguminosarum (it can form N2 fixing nodules on pea roots) to study the natural metabolites secreted by roots. To do this root secretion was harvested from pea plants grown under sterile conditions. This root exudate was then concentrated and used as a sole carbon and nitrogen source for growth of the bacteria in the laboratory. These bacteria were harvested in mid-exponential growth and RNA extracted for microarray analysis. As control cultures the bacteria were grown on 30 mM pyruvate as a carbon source and 10 mM ammonium chloride as a nitrogen source and RNA extracted. Two colour microarrays were performed using root exudate cultures versus pyruvate ammonia grown cultures. This was done in biological triplicate.

Project description:An aerobic Lactobacillus plantarum culture displayed growth stagnation during early growth. Transcriptome analysis revealed that regain of growth after stagnation correlated with activation of CO2-producing pathways suggesting that limiting CO2-concentration induced stagnation. Analogously providing increased CO2 gas partial pressure during aerobic fermentation prevented the temporal growth stagnation. Keywords: cell type comparison Two aerobic fermenters (biological replicates Land R) were sampled at two time points, before (1) and after (2) growth stagnation.

Project description:Rhizobium leguminosarum Rlv 3841 grown on glucose ammonia with and without the flavonoid hesperitin at 1 micromolar

Project description:Lactobacillus reuteri is a heterofermentative lactic acid bacterium best known for its ability to co-ferment glucose and glycerol. Its genome sequence has recently been deduced enabling the implementation of genome-wide analysis. In this study we developed a dedicated cDNA microarray platform and a genome-scale metabolic network model of L. reuteri and use them to revisit the co-fermentation of glucose and glycerol. The model was used to simulate experimental conditions and to visualize and integrate experimental data in particular the global transcriptional response of L. reuteri to the presence of glycerol. We show how the presence of glycerol affects cell physiology and triggers specific regulatory mechanisms allowing simultaneously a better yield and more efficient biomass formation. Furthermore we were able to predict and demonstrate for this well-studied condition the involvement of previously unsuspected metabolic pathways for instance related to amino acids and vitamins. These could be used as leads in future studies aiming at the increased production of industrially relevant compounds such as vitamin B12 or 1 3- propanediol. Keywords: cell type comparison Dye swap