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dc.contributor.authorUkena, Sya N
dc.contributor.authorWestendorf, Astrid M
dc.contributor.authorHansen, Wiebke
dc.contributor.authorRohde, Manfred
dc.contributor.authorGeffers, Robert
dc.contributor.authorColdewey, Sina
dc.contributor.authorSuerbaum, Sebastian
dc.contributor.authorBuer, Jan
dc.contributor.authorGunzer, Florian
dc.date.accessioned2010-04-08T09:10:02Zen
dc.date.available2010-04-08T09:10:02Zen
dc.date.issued2005en
dc.identifier.citationThe host response to the probiotic Escherichia coli strain Nissle 1917: specific up-regulation of the proinflammatory chemokine MCP-1. 2005, 6:43 BMC Med. Genet.en
dc.identifier.issn1471-2350en
dc.identifier.pmid16351713en
dc.identifier.doi10.1186/1471-2350-6-43en
dc.identifier.urihttp://hdl.handle.net/10033/95975en
dc.description.abstractBACKGROUND: The use of live microorganisms to influence positively the course of intestinal disorders such as infectious diarrhea or chronic inflammatory conditions has recently gained increasing interest as a therapeutic alternative. In vitro and in vivo investigations have demonstrated that probiotic-host eukaryotic cell interactions evoke a large number of responses potentially responsible for the effects of probiotics. The aim of this study was to improve our understanding of the E. coli Nissle 1917-host interaction by analyzing the gene expression pattern initiated by this probiotic in human intestinal epithelial cells. METHODS: Gene expression profiles of Caco-2 cells treated with E. coli Nissle 1917 were analyzed with microarrays. A second human intestinal cell line and also pieces of small intestine from BALB/c mice were used to confirm regulatory data of selected genes by real-time RT-PCR and cytometric bead array (CBA) to detect secretion of corresponding proteins. RESULTS: Whole genome expression analysis revealed 126 genes specifically regulated after treatment of confluent Caco-2 cells with E. coli Nissle 1917. Among others, expression of genes encoding the proinflammatory molecules monocyte chemoattractant protein-1 ligand 2 (MCP-1), macrophage inflammatory protein-2 alpha (MIP-2alpha) and macrophage inflammatory protein-2 beta (MIP-2beta) was increased up to 10 fold. Caco-2 cells cocultured with E. coli Nissle 1917 also secreted high amounts of MCP-1 protein. Elevated levels of MCP-1 and MIP-2alpha mRNA could be confirmed with Lovo cells. MCP-1 gene expression was also up-regulated in mouse intestinal tissue. CONCLUSION: Thus, probiotic E. coli Nissle 1917 specifically upregulates expression of proinflammatory genes and proteins in human and mouse intestinal epithelial cells.
dc.language.isoenen
dc.subject.meshBiological Therapyen
dc.subject.meshCaco-2 Cellsen
dc.subject.meshChemokine CCL2en
dc.subject.meshChemokine CXCL2en
dc.subject.meshEscherichia colien
dc.subject.meshGene Expression Profilingen
dc.subject.meshHumansen
dc.subject.meshImmunotherapyen
dc.subject.meshInflammationen
dc.subject.meshIntestinal Diseasesen
dc.subject.meshIntestinesen
dc.subject.meshMonokinesen
dc.subject.meshProbioticsen
dc.subject.meshRNA, Messengeren
dc.subject.meshUp-Regulationen
dc.titleThe host response to the probiotic Escherichia coli strain Nissle 1917: specific up-regulation of the proinflammatory chemokine MCP-1.en
dc.typeArticleen
dc.contributor.departmentGerman Research Centre for Biotechnology, Mucosal Immunity Group, Mascheroder Weg 1, 38124 Braunschweig, Germany. suk@gbf.deen
dc.identifier.journalBMC medical geneticsen
refterms.dateFOA2018-06-13T02:35:12Z
html.description.abstractBACKGROUND: The use of live microorganisms to influence positively the course of intestinal disorders such as infectious diarrhea or chronic inflammatory conditions has recently gained increasing interest as a therapeutic alternative. In vitro and in vivo investigations have demonstrated that probiotic-host eukaryotic cell interactions evoke a large number of responses potentially responsible for the effects of probiotics. The aim of this study was to improve our understanding of the E. coli Nissle 1917-host interaction by analyzing the gene expression pattern initiated by this probiotic in human intestinal epithelial cells. METHODS: Gene expression profiles of Caco-2 cells treated with E. coli Nissle 1917 were analyzed with microarrays. A second human intestinal cell line and also pieces of small intestine from BALB/c mice were used to confirm regulatory data of selected genes by real-time RT-PCR and cytometric bead array (CBA) to detect secretion of corresponding proteins. RESULTS: Whole genome expression analysis revealed 126 genes specifically regulated after treatment of confluent Caco-2 cells with E. coli Nissle 1917. Among others, expression of genes encoding the proinflammatory molecules monocyte chemoattractant protein-1 ligand 2 (MCP-1), macrophage inflammatory protein-2 alpha (MIP-2alpha) and macrophage inflammatory protein-2 beta (MIP-2beta) was increased up to 10 fold. Caco-2 cells cocultured with E. coli Nissle 1917 also secreted high amounts of MCP-1 protein. Elevated levels of MCP-1 and MIP-2alpha mRNA could be confirmed with Lovo cells. MCP-1 gene expression was also up-regulated in mouse intestinal tissue. CONCLUSION: Thus, probiotic E. coli Nissle 1917 specifically upregulates expression of proinflammatory genes and proteins in human and mouse intestinal epithelial cells.


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