Project description:Viewing the scarce amount of protein material coming from the bacterial pathogen in infection models and despite the availability of contemporary, highly sensitive and fast scanning mass spectrometers, the power requirement still not suffices to study the host and pathogen proteomes simultaneously. In the present work we aimed to establish a DIA mass spectrometry workflow for improving the protein identification and quantification of LC-MS/MS, in Salmonella infected epithelial cells, therefore enabling simultaneous host and pathogen protein expression profiling at different time post infection.

Project description:We identified miRNAs differentially regulated upon Salmonella infection by comparative deep-sequencing analysis of cDNA libraries prepared from the small RNA population (10M-bM-^@M-^S29 nt) of HeLa cells infected with Salmonella (20 hpi) and mock-treated cells. Considering that at a MOI of 25 Salmonella is internalized in only 10-15% of the HeLa cells, we separated the fraction of cells which had internalized Salmonella (Salmonella+) from the bystander fraction (Salmonella-) by fluorescence-activated cell sorting (FACS), and extended the analysis of miRNA changes to these samples. Interestingly, we observed that Salmonella infection induces a significant decrease in the expression of all the detected members of the miR-15 family miRNA profiles of HeLa cells infected with Salmonella Typhimurium were generated by deep sequencing, using Illumina HiSeq2000.

Project description:We evaluated the transcriptome changes induced by infection with Salmonella (20 hpi, MOI 100). Transcriptmic profiles of HeLa cells infected with Salmonella Typhimurium were generated by deep sequencing, using Illumina HiSeq 2000.

Project description:Viewing the scarce amount of protein material coming from the bacterial pathogen in infection models and despite the availability of contemporary, highly sensitive and fast scanning mass spectrometers, the power requirement still not suffices to study the host and pathogen proteomes simultaneously. In the present work we aimed to establish a DIA mass spectrometry workflow for improving the protein identification and quantification of LC-MS/MS, in Salmonella infected epithelial cells, therefore enabling simultaneous host and pathogen protein expression profiling at different time post infection.

Project description:Using longitudinal metabolic labeling in a knock-out mouse model we assessed the effects of parkin insufficiency on the half-lives of mitochondrial proteins in vivo.

Project description:During an infection, bacteria are exposed to the complex host immune response and has to adapt to the changing environment in order to successfully grow within tissues. In the present sturdy we analysed the transcriptome of both host (mouse) and bacteria (Salmonella Typhimurium) at different time points during the infection to gain a better insight into the attack mounted by the host to repel the bacterial infection and how the bacteria adapts to it. For this, mice were infected intravenously with Salmonella Typhimurium and spleens were collected for RNA isolation at specific time points. Transcription profile of infected mice was compared to uninfected controls.

Project description:Preliminary analyses of Salmonella cells infected with phage SPN3US and a control at 20 minutes post infection.

Project description:Murine ES cell line AB2.2 was infected for 2 and 4 hours with Salmonella Typhimurium. The percent of infected cells was tested by FACS analysis previous to RNA extraction. Total RNA was extracted from uninfected cells and infected with S. Typhimurium SL1344 at 2 and 4 hours infection. The biotin-labeled-cRNA was hybridized on Affymetrix Mouse GeneChip 430 2.0 array.<br>Paper Title: Interaction of enteric bacterial pathogens with murine embryonic stem cells<br>Abstract: <br>

Project description:To study the pathogenicity of Salmonella Typhimurium (ST) in heterophils, a whole Salmonella genome array was used to analyze RNA isolated from Salmonella in vitro encountered with heterophils (30 min, 1 h, 2 h, and 3 h) or medium control (NS). Dual-color, direct comparisons were carried out between heterophils-encountered ST and non-encountered controls (30 min vs. NS (30M/NS), 1 h vs. NS (1HR/NS), 2 h vs. NS (2HR/NS) and 3 h vs. NS (3HR/NS)). Each comparison includes four biological replicates. Out of 4588 genes on an array, there were 605, 758, 944 and 945 genes differentially expressed in the comparisons of 30M/NS, 1HR/NS, 2HR/NS and 3HR/NS, respectively (P < 0.001, fold-change > 2). Most of the Salmonella genes associated with invasion function were found differentially expressed at 2HR/NS and 3HR/NS comparisons. These candidate genes include TypeIII-secreted protein effector sopE2, Invasion proteins (e.g. invA, invE, invG, invH), and Invasion genes tranction activator hilA. The results of continuous transcriptional changes provide important information to elucidate the pathogenicity of ST in heterophils. Dual-color, common reference comparisons were carried out between heterophils-encountered ST and non-encountered controls (30 min vs. NS (30M/NS), 1 h vs. NS (1HR/NS), 2 h vs. NS (2HR/NS) and 3 h vs. NS (3HR/NS)). Four biological replicates, with dye swap labeling, were included in each of comparisons. Background subtracted signal intensity were collected from 16 arrays and normalized before data analysis.

Project description:Salmonella enterica serovar Typhimurium is known to synthesize and respond to the cell signaling molecule, autoinducer-2 (AI-2). The luxS gene is involved in the synthesis of AI-2. We have previously shown that luxS controls a variety of bacterial processes in S. Typhimurium. In this study we identified the genes regulated by AI-2 using mRNA samples from isogenic luxS gene mutant of S. Typhimurium strain 87-26254 grown in LB media in the presence/absence of in vitro synthesized AI-2. In the presence of in vitro synthesized AI-2, 536 genes were significantly (p<0.05) regulated. Interestingly, in vitro synthesized AI-2 caused the down-regulation of 39 genes in Salmonella Pathogenicity Island-1 (SPI-1) including the transcriptional regulators hilA, hilD, and invF. Purified cDNAs from the mutant supplemented with AI-2 and mutant without AI-2 (PBS) were each labeled with Cy-3 mono-Reactive Dye and Cy-5 mono-Reactive Dye (GE Health Care, Piscataway, NJ) and were processed using a dye-swapping design. A total of eight microarray arrays, each with duplicate spots for each gene and used for mutant supplemented with AI-2.