Project description:Impact of protein ingestion following 1 h intense cycling on the induced transcriptome and signaling in biopsy samples from endurance-trained men, relative to isocaloric control Single blind, randomized, crossover design comprising two experimental blocks. During the blocks, exercise and diet were controlled and the intervention consisted of the ingestion of a protein-enriched and control beverage, with outcome measures obtained from skeletal muscle tissue collected following a bout of intense cycling. Total RNA were obtained from quadriceps. Each of the two serves were isocaloric and provided 0.2 g/kg fat (freeze dried canola oil) with either 1.2 g/kg carbohydrate (1:1 maltodextrin:fructose) and 0.4 g/kg protein (2:1 milk protein concentrate:whey isolate); or 1.6 g/kg carbohydrate (1:1 maltodextrin:fructose).

Project description:To undertake transcriptome-wide microarray analysis to develop a view of molecular adaptations that may underpin any benefit associated with the mild exercise regime of voluntary running Total RNA obtained from isolated whole hearts subjected to 7 days of voluntary exercise compared to sedentary control hearts (n=6/group).

Project description:An ancillary study within a randomized trial of diet, exercise, or combined diet+exercise vs. control among overweight/obese postmenopausal women. Subcutaneous adipose-tissue biopsies were performed at baseline and after 6 months and changes in adipose-tissue gene expression were determined by microarray with an emphasis on pre-specified candidate pathways, as well as by unsupervised clustering. Analyses were conducted first by randomization group, and then by degree of weight change at 6-months in all women combined. Total RNA was obtained from subcutaneous adipose tissue biopsies at baseline and 6 months. A total of 47 women were biopsied and one replicate participant was included for a total of 96 samples.

Project description:This study aimed to examine if early life exercise could normalize the reduced heart mass we have previously observed in the adult hearts from growth restricted rats. We investigated the molecular pathways using microarray analysis to explain how endurance exercise in early life might be regulating the sustained increase in heart mass we have observed in these rats in adulthood. At 5 weeks of age, male WKY rats were allocated to one of the following exercise treatments: remained sedentary with post mortem (PM) at 9 or 24 weeks, early exercise training (from 5-9 weeks of age) with PM at 9 or 24 weeks, or later exercise training (from 20-24 weeks of age) with PM at 24 weeks (n=8 males/group). Exercise training involved treadmill running 5 days/ week for 4 weeks. Running duration progressively increased from 20 up to 60 minutes per day, with the treadmill speed set at 15 m/min for the first week and 20 m/min thereafter. At 9 or 24 weeks of age rats were killed with an intraperitoneal injection of Ilium Xylazil-20 (30 mg/kg) and Ketamine (225 mg/kg). The rats in the 9 week old early exercise and 24 week old later exercise groups were killed 72 hours following the last bout of treadmill running. Total RNA was obtained from the whole-hearts for analysis Total RNA obtained from the hearts of WKY rats. Male offspring remained sedentary or underwent treadmill running from 5-9 weeks (early exercise) or 20-24 weeks of age (later exercise).

Project description:Ongoing, lifelong neurogenesis maintains the neuronal population of the olfactory epithelium in the face of piecemeal neuronal turnover and restores it following wholesale loss. The molecular phenotypes corresponding to different stages along the progression from multipotent globose basal cell (GBC) progenitor to differentiated olfactory sensory neuron are poorly characterized. We used the transgenic expression of GFP and cell surface markers to FACS-isolate Sox2-GFP(+) GBCs, Neurog1-GFP(+) GBCs and immature neurons, and OMP-GFP(+) mature neurons from normal adult mice. In addition, the latter two populations were also collected 3 weeks after olfactory bulb ablation, a lesion that results in persistently elevated neurogenesis. Global profiling of mRNA from the populations indicates that all stages of neurogenesis share a cohort of >2100 genes that are upregulated compared to sustentacular cells. A further cohort of >1200 genes are specifically upregulated in GBCs as compared to sustentacular cells and differentiated neurons. The increased rate of neurogenesis caused by olfactory bulbectomy had little effect on the transcriptional profile of the Neurog1-GFP(+) population. In contrast, the abbreviated lifespan of OMP-GFP(+) neurons born in the absence of the bulb correlated with substantial differences in gene expression as compared to the mature neurons of the normal epithelium. Detailed examination of the specific genes upregulated in the different progenitor populations revealed that the chromatin modifying complex proteins LSD1 and coREST were expressed sequentially in upstream Sox2-GFP(+) GBCs and Neurog1-GFP(+) GBCs/immature neurons. The expression patterns of these proteins are dynamically regulated after activation of the epithelium by methyl bromide lesion. Total RNA was isolated from dissected, dissociated and FACS-purified olfactory mucosal cells from normal adult mice or mice 3 weeks after unilateral bulbectomy. Cells were purified with FACS using endogenous GFP fluorescence from various transgenic lines and cell surface labeling. Two to seven adult mice were used per replicate and three replicates per condition were performed using Illumina bead arrays. 21 samples from olfactory mucosa were analyzed in this series and 3 samples were from a commercially available reference RNA sample. Universal mouse reference RNA from Stratagene was used as a general control and Normal olfactory mucosa was used as a tissue specific control.

Project description:The lineage relationships and fate of human blood and tissue dendritic cells (DC) has significance for a number of diseases including HIV where both blood and tissue DC may be infected. We used gene expression profiling of monocyte and DC sub-populations sorted directly from blood and skin and compared this to monocyte derived DC (MDDC) and MUTZ3 Langerhans cells (LCs) to define the lineage relationships. Hierarchical clustering analysis showed that plasmacytoid DCs formed the most discrete cluster. The ex vivo derived myeloid cells formed two separate clusters of cells derived from blood, and skin. Separate and specific DC populations could be determined within the sub-clusters. During overnight culture CD14+ dermal DCs (DDC) converted to CD1a+ expressing cells in situ consistent with origin of the CD1a+ DDC from a local precursor rather than from circulating blood DC or monocyte precursors. The in vitro derived MDDC and MUTZ3 populations grouped within the skin DC cluster and MDDCs clustered most closely to CD14+ DDC consistent with the proposed similarity between these two cell types. We identified differential expression of novel genes in particular DC subsets including genes related to DC surface receptors (including C-type lectin receptors, toll-like receptors and galectins). Total RNA was extracted and hybridised to 24 bead arrays. Dendritic cells and monocytes from human blood and skin using magnetic bead and flow cytometry based cell sorting both before and after culture for 24 hours

Project description:Most solid tumors seem to be organized in a hierarchy in which only a fraction of cells, termed tumor-initiating cells (TICs), is capable of disseminating new tumors after transplantation into recipient mice. However, whether a single TIC can induce a tumor or whether it requires additional TICs or non-TICs for tumor initiation is not known. Here we show that injections of single CD24+:Jag1- cells from Her2/Neu+ mammary tumors into recipient mammary glands induced tumors at a frequency of 1/22. Single cell-derived secondary tumors exhibited histology, flow cytometry and global expression profiles that were indistinguishable from primary tumors. Thus, a single TIC can act cell autonomously to induce a tumor and therefore complete eradication of all TICs would be required to cure cancer. Total RNA obtained from primary MMTV-Neu tumors, secondary tumors generated by lin- cell transplantation, and secondary tumors generated by a single TIC, were used for microarray analysis to determine differentially regulated genes in the secondary tumors. Cluster analysis based on gene expression were then performed to assess tumor similarity

Project description:The purpose of this study was to characterise the effects of trastuzumab and pertuzumab, either as single agents or as combination therapy on gene and protein expression in human ovarian cancer in vivo. Illumina BeadChips were used to profile the transcriptome after four days treatment of SKOV3 tumor xenografts. Although genes involved with HER2, MAP-kinase and p53 signaling pathways were commonly induced by all treatments, a greater number and variety of genes were differentially expressed by the complementary combination therapies compared to either drug on its own. The protein level of the CDK-inhibitors p21 and p27 were increased in response to both agents alone and further by the combination; pERK signaling was inhibited by all treatments; but only pertuzumab alone inhibited pAkt signaling. The expression of proliferation, apoptosis, cell division and cell cycle markers was distinct in a panel of primary ovarian cancer xenografts, suggesting heterogeneity of response in ovarian cancer and the need to establish biomarkers of response. This first comprehensive study of the molecular response to trastuzumab, pertuzumab and combination therapy in vivo highlights that there are both common and distinct downstream effects to different HER2 antibodies and that pathways may be invoked more strongly or in a different manner by a combination of agents. Some of the in vivo results for ovarian tumors differ from previous in vitro studies in breast cancer cells, emphasizing that the molecular response to anti-cancer agents involves variable and complex disease-specific interactions of signaling mechanisms. SCOV3 Ovarian cell line xenografts treated with Trastuzumab, pertuzumab or combination after 4 days

Project description:MiRNA expression is known to be deregulated in chronic lymphocytic leukemia (CLL). To get insight into miRNA expression pattern in CLL, we compaired miRNA expression profiling of peripheral blood-derived CLL cells and the healthy donor, peripheral blood-derived B-lymphocytes. A set of differentially expressed miRNAs was revealed. MiRNA expression profiling was performed on 18 CLL samples and one sample, which is a pool of 5 RNA samples of healthy donor peripheral blood-derived B-lymphocytes

Project description:Phosphorylation of skeletal muscle proteins mediates cellular signaling and adaptive responses to exercise. Bioinformatic and machine learning approaches identified preclinical models that recapitulate human exercise responses. Feature selection showed that muscles from treadmill running mice and maximum intensity contractions shared the most differentially phosphorylated phosphosites (DPPS) with human exercise. Benefits of exercise in chronic diseases may be reduced by hyperammonemia, a consistent perturbation in chronic diseases and a muscle cytotoxin generated during contractile activity. Comparative analysis of experimentally validated molecules identified 63 DPPS on 265 differentially expressed phosphoproteins (DEpP) shared between hyperammonemia in myotubes and skeletal muscle from exercise models. Functional enrichment analyses revealed distinct temporal patterns of enrichment shared between hyperammonemia and exercise models including protein kinase A(PKA), calcium signaling, mitogen activated protein kinase(MAPK) signaling, and protein homeostasis. Our approach of feature extraction of comparative unbiased data allows for model selection and target identification to optimize responses to interventions.