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Intracellular Signaling Molecules (intracellular + signaling_molecule)
Selected AbstractsCeramide in Pseudomonas aeruginosa infectionsEUROPEAN JOURNAL OF LIPID SCIENCE AND TECHNOLOGY, Issue 10 2007Joachim Riethmüller Abstract Cystic fibrosis (CF), the most common autosomal recessive disorder, at least in western countries, is caused by mutations of the cystic fibrosis transmembranous conductance regulator (CFTR) molecule and affects approximately 80,000 patients in Europe and the USA. Most, if not all, CF patients develop a chronic pulmonary infection with Pseudomonas aeruginosa. At present it is unknown why CF patients are highly sensitive to P.,aeruginosa infections, and most importantly, no curative treatment for CF is available. P.,aeruginosa infection results in an activation of the enzyme acid sphingomyelinase which catalyzes the release of ceramide from sphingomyelin in the cell membrane. Ceramide forms large ceramide-enriched membrane domains that are required for internalization of bacteria, induction of cell death in infected cells and a controlled release of cytokines from infected cells. Ceramide-enriched membrane platforms seem to serve the reorganization of receptors and intracellular signaling molecules involved in the infection of mammalian cells with P.,aeruginosa. The significance of the acid sphingomyelinase and ceramide for the infection of mammalian cells with P.,aeruginosa was demonstrated on mice genetically deficient for the acid sphingomyelinase. Further studies with N.,gonorrhoeae, S.,aureus and rhinoviruses indicate that ceramide-enriched membrane domains are also important for the infection of mammalian cells with other bacterial and viral pathogens, suggesting a general role of these membrane domains in infectious biology. [source] Altered gene expression in acute systemic inflammation detected by complete coverage of the human liver transcriptomeHEPATOLOGY, Issue 2 2004Cédric Coulouarn The goal of the current study was to provide complete coverage of the liver transcriptome with human probes corresponding to every gene expressed in embryonic, adult, and/or cancerous liver. We developed dedicated tools, namely, the Liverpool nylon array of complementary DNA (cDNA) probes for approximately 10,000 nonredundant genes and the LiverTools database. Inflammation-induced transcriptome changes were studied in liver tissue samples from patients with an acute systemic inflammation and from control subjects. One hundred and fifty-four messenger RNAs (mRNA) correlated statistically with the extent of inflammation. Of these, 134 mRNA samples were not associated previously with an acute-phase (AP) response. The hepatocyte origin and proinflammatory cytokine responsiveness of these mRNAs were confirmed by quantitative reverse-transcription polymerase chain reaction (Q-RT-PCR) in cytokine-challenged hepatoma cells. The corresponding gene promoters were enriched in potential binding sites for inflammation-driven transcription factors in the liver. Some of the corresponding proteins may provide novel blood markers of clinical relevance. The mRNAs whose level is most correlated with the AP extent (P < .05) were enriched in intracellular signaling molecules, transcription factors, glycosylation enzymes, and up-regulated plasma proteins. In conclusion, the hepatocyte responded to the AP extent by fine tuning some mRNA levels, controlling most, if not all, intracellular events from early signaling to the final secretion of proteins involved in innate immunity. Supplementary material for this article can be found on the HEPATOLOGY website (http://interscience.wiley.com/jpages/0270-9139/suppmat/index.html). (HEPATOLOGY 2004;39:353,364.) [source] Cell Compartmentalization in Redox SignalingIUBMB LIFE, Issue 1 2001Giovambattista Pani Abstract From a growing body of evidence on the role of Reactive Oxygen Species as intracellular signaling molecules, the concept starts to emerge that cell responses to redox changes are function of the intracellular site where oxidants are produced and/or meet their molecular targets. In particular,a major distinction between oxidative events in the cytosolic versus the mitochondrial compartment appears to exist in terms of physiological stimuli, signaling mechanisms and functional consequences. Experimental data supporting this view are reviewed here, and the potential implications of this new perspective in redox signaling are discussed. [source] Intracellular signaling involved in macrophage adhesion and FBGC formation as mediated by ligand,substrate interactionJOURNAL OF BIOMEDICAL MATERIALS RESEARCH, Issue 4 2002Weiyuan John Kao Abstract Fibronectin and RGD- and/or PHSRN-containing oligopeptides were preadsorbed onto physicochemically distinct substrata: polyethyleneglycol-based networks or tissue culture polystyrene (TCPS). The role of selected signaling kinases (namely protein tyrosine kinases, protein serine/threonine kinases, PI3-kinase, Src, and MAPK) in the adhesion of human primary blood-derived macrophages and the formation of foreign-body giant cells (FBGC) on these modified substrata was investigated. The involvement of individual intracellular signaling molecules in mediating macrophage adhesion dynamically varied with the culture time, substrate, and ligand. For example, fibronectin on TCPS or networks involved similar signaling events for macrophage adhesion; however, fibronectin and G3RGDG6PHSRNG, but not peptides with other RGD and/or PHSRN orientations, mediated similar signaling events for macrophage adhesion on TCPS but mediated different signaling events on networks. Depending on the substrate, a specific molecule (i.e., Src, protein kinase C) within the protein tyrosine kinase or protein serine/threonine kinase family was either an antagonist or agonist in mediating FBGC formation. © 2002 Wiley Periodicals, Inc. J Biomed Mater Res 62: 478,487, 2002 [source] | ||||||||||