Project description:Swine Inflammation and Necrosis Syndrome (SINS) can lead to severe clinical signs, especially in tails, ears, teats and claws in pigs. Clinical and histopathological findings in newborn piglets with in-tact epidermis indicate a primarily endogenous etiology, and microbial-associated molecular pat-terns (MAMPs), such as lipopolysaccharide (LPS) are assumed to play a central role in the devel-opment of the syndrome. We hypothesized that swine inflammation and necrosis syndrome (SINS) is indirectly triggered by gut-derived MAMPs entering the circulatory system via the liver and thereby causing derangements on liver metabolism. To test this hypothesis, metabolomes, candidate genes of the liver and liver transcriptomes of 6 piglets with high-grade clinical signs of SINS (SINS high) were examined and compared with 6 piglets without significant signs of SINS (SINS low). Several hepatic pro-inflammatory genes and genes involved in stress response were induced in piglets of the SINS high group. The most striking finding from hepatic transcript pro-filing and bioinformatic enrichment was that the most enriched biological processes associated with the approximately 220 genes induced in the liver of the SINS high group were exclusively related to metabolic pathways, such as fatty acid metabolic process. Within the genes (≈ 390) re-pressed in the liver of the SINS high group, enriched pathways were ribosome biogenesis, RNA processing, RNA splicing, spliceosome and RNA transport. The transcriptomic findings were supported by the results of the metabolome analyses. These results provide the first evidence for the induction of an inflammatory process in the liver of piglets suffering from SINS, accompanied by lipid metabolic derangement.

Project description:Expression profiles of porcine muscle Semimembranosus were studied to identify genes beeing significantly affected by pre-slaughter stress or no stress treatment in pigs of different breed (Italian Duroc, Italian Large White or Pietrain) and differnt Halothane genotype (RYR1 locus CC-NN, CT-Nn or TT-nn) in Pietrain pigs.

Project description:In vivo microarray study of global gene expression changes in peripheral blood mononuclear cells (PBMCs) of Pietrain pigs during the stage of inatte immune and adaptive immune response to porcine reproductive and respiratory syndrome virus vaccination.

Project description:Expression profiles of porcine muscle Semimembranosus were studied to identify genes beeing significantly affected by pre-slaughter stress or no stress treatment in pigs of different breed (Italian Duroc, Italian Large White or Pietrain) and differnt Halothane genotype (RYR1 locus CC-NN, CT-Nn or TT-nn) in Pietrain pigs. All 36 samples were hybridised together with a common reference.

Project description:Tight control of both extracellular and intracellular inorganic phosphate (Pi) levels is critical to the normal functioning of virtually all biochemical and physiological processes. The kidney participates in Pi homeostasis by controlling Pi reabsorption from the primary urine. Pi is freely filtered at the kidney glomerulus and is reabsorbed in the renal tubule by the action of the apical sodium-dependent phosphate transporters NaPi-IIa/NaPi-IIc/Pit2. The molecular identity of transporter(s) involved in the basolateral Pi efflux remains unknown. Recent evidence has suggested that the retroviral receptor XPR1 might be a candidate for this role. Here we show that conditional inactivation of Xpr1 in the renal tubule in mice results in impaired renal Pi reabsorption associated with a generalized proximal tubular dysfunction, or Fanconi syndrome, characterized by glycosuria, aminoaciduria, calciuria and albuminuria. Bone histomorphometry showed that the Xpr1-deficient mice develop hypophosphatemic osteomalacia secondary to the renal dysfunction. The analysis of Pi transport in primary culture of the proximal tubular cells revealed that the Pi efflux was significantly affected in cells devoid of Xpr1. These results identify XPR1 as a major player in Pi homeostasis and as a potential therapeutic target in bone and kidney disorders.

Project description:In order to gain insight into hepatic metabolic pathways and key transcripts affecting traits related to body composition we aimed to compare samples of pigs of two breeds, the “obese” German Landrace (DL) and the “lean” Pietrain (Pi) obtained at prenatal stages (35, 63, and 91 days post conceptionem) and at adult age (180 days). In terms of number of genes regulated the most striking differences between DL and Pi were found at adult age with upregulation of key genes of lipid biosynthesis/metabolism pathways (FASN, ACSS2, ACACA) in obese DL pigs on the one hand and upregulation of genes of cell growth and/or maintenance, protein syntheses as well as cell proliferation pathways (PPARD, POU1F1, IGF2R) in lean Pi pigs on the other hand. Time course analysis of expression profiles of breed differences from foetal to adult stage and functional cluster analysis of the biological processes confirmed the trend of differences between genetically different obese and lean breeds. The highlighted classes of genes showed common breed-typical expression throughout prenatal development and at adult age. The transcriptional differences between obese and lean pigs involving lipid pathways and cell activity are already initiated during early prenatal development. The information about genetic differences between obese and lean pigs reveals a number of functional candidate genes for traits related to obesity and leaness. Porcine liver from three prenatal stages (35, 63, and 91 day post conceptionem, dpc) plus adult age (180 days) of 10 animals of each of the breeds DL and Pi, which differ in body composition, were collected. The hepatic gene expression patterns of DL and Pi breeds were compared at each of the four stages of development. Three or four biological replicate microarray hybridisations were performed for each stage with DL pools labelled with Cy5 and Pi pools labelled with Cy3.

Project description:Vasculitis is characterized by the inflammation of blood vessels. In patients with giant cell arteritis (GCA) large- to medium-sized vessels are affected. Single-cell RNA sequencing was performed on GCA patients and healthy controls (HC) to study the transcriptome of peripheral blood mononuclear cells of patients and controls.

Project description:Characterization of genetic variants affecting genome-wide gene expression levels (expression quantitative trait loci or eQTLs) in pig testes may improve our understanding of genetic architecture of boar taint (an animal welfare trait) and helps in genome-assisted or genomic selection programs. The aims of this study were to identify eQTLs associated with androstenone, to find candidate eQTLs for low androstenone, and to validate the top eQTL by reverse transcriptase quantitative PCR (RT-qPCR). Gene expression profiles were obtained by RNA sequencing in testis from Danish cross-bred pigs and genotype data by 80K single nucleotide polymorphism panel. A total of 262 eQTLs [false discovery rate (FDR) < 0.05] were identified by using two software packages: Matrix eQTL and Krux eQTL. Of these, 149 cis-acting eQTLs were significantly associated with androstenone concentrations and gene expression (FDR < 0.05). The eQTLs were associated with several genes of boar taint relevance including CYP1A2, CYB5D1, and SPHK2. One eQTL gene, AMPH, was differentially expressed (FDR < 0.05) and affected by chicory. Five candidate eQTLs associated with low androstenone concentrations were discovered, including the top eQTL associated with CYP1A2. RT-qPCR confirmed target gene expression to be significantly (P < 0.05) different based on eQTL genotypes. Furthermore, eQTLs were enriched as QTLs for 15 boar taint related traits from the PigQTLdb. This is the first study to report eQTLs in testes of commercial crossbred pigs used in pork production and to reveal genetic architecture of boar taint. Potential applications include development of a DNA test and in advanced genomic selection models for boar taint.

Project description:We conducted a genome-wide transcriptomic analysis in soybean leaves treated with a short-term (24 h) Pi-deficiency using RNA sequencing (RNA-seq) technology. Two biological replicates of RNA-seq were included for both Pi-sufficient leaves (PSL) and Pi-deficient leaves (PDL), and therefore a total of four libraries were constructed. Using a 2-fold change and a P-value ≤0.05 as the cut-off for selecting the differentially expressed transcripts, we globally identified short-term Pi-stress responsive genes. Some DEGs potentially involved in Pi sensing, signaling, and homeostasis were up-regulated by Pi deprivation, including five SPX-containing genes. Some DEGs possibly associated with water and nutrient uptake, hormonal and calcium signaling, protein phosphorylation and dephosphorylation, and cell wall modification were affected at the early stage of Pi deprivation. At least thirty-one transcription factor genes belonging to 10 diverse families were found to be responsive to Pi starvation.

Project description:Human prostate cancer C4-2 cells transfected with siRNAs (siNS and siRRM2). Knockdown were confirm by westernblot or qPCR. Transfected cells were prepared for RNA-seq.