Project description:A host-adapted auxotrophic gut symbiont induces mucosal immunodeficiency

Project description:A host-adapted auxotrophic gut symbiont induces mucosal immunodeficiency

Project description:gut symbionts and mucosal immunodeficiency

Project description:Immunoglobulin-degrading commensal bacterium in wild-type B6 mice

Project description:This SuperSeries is composed of the following subset Series: GSE11944: Mucosal Glycan Foraging Enhances the Fitness and Transmission of a Saccharolytic Human Distal Gut Symbiont GSE11953: Mucosal Glycan Foraging Enhances the Fitness and Transmission of a Saccharolytic Human Distal Gut Symbiont: ECF mutant GSE11962: Growth of B. thetaiotaomicron on purified host mucosal glycans and glycan fragments Refer to individual Series

Project description:Gene expression profiles of Bacteroides thetaiotaomicron in vitro during growth on host mucosal polysaccharides as sole carbon sources. All substrates in this series are derived from porcine gastric mucin and include mucin O-glycans and glycosaminoglycans. Two different culture formats used: 800ml batch-culture bioreactors and 5ml tube cultures (format is indicated within each sample title). Each set of growths was referenced to a minimal medium glucose reference corressponding to the same culture format. Unfractionated porcine mucosal glycan (PMG) growths were compared to previously published in vivo datasets, which were referenced to the 800ml minimal medium glucose reference dataset.

Project description:To systematically characterize the phenotypic behavior of two 'prototrophic' version of the Yeast Knockout (YKO) gene deletion collection, we compared genome-wide finess assays across a diverse set of drug and environmental conditions. This analysis uncovered experimental liabilities in the the prototrophic collections distinct from the YKO auxotrophies that shows that auxotrophic repair (regardless of methodology) does not restore wildtype behaviour.

Project description:Gene expression profiles of Bacteroides thetaiotaomicron in vitro during growth on host mucosal polysaccharides as sole carbon sources. All substrates in this series are derived from porcine gastric mucin and include mucin O-glycans and glycosaminoglycans.

Project description:Objective: The objective of this study was to more fully chracterize an inflammatory small intestinal enteropathy observed in CD19-/- mice (a model of humoral immunodeficiency). RNAseq was performed to characterize ileal transcriptomes pf WT and CD19-/- mice under steady-state conditions.

Project description:Legionella pneumophila are important opportunistic pathogens for which environmental reservoirs such as protists are crucial for the infection of humans. Free-living amoebae are considered key hosts providing nutrients and shelter for highly efficient intracellular proliferation of L. pneumophila, which eventually leads to lysis of the amoeba host cell. Yet, the significance of other bacterial players for L. pneumophila ecology is poorly understood. In this study we used a ubiquitous amoeba and their bacterial endosymbiont to investigate the impact of this common association on L. pneumophila infection. We demonstrate that Acanthamoeba castellanii harboring the chlamydial symbiont Protochlamydia amoebophila were able to erase L. pneumophila and, in contrast to symbiont-free amoebae, survived the infection and were able to resume growth. Environmental amoeba isolates harboring P. amoebophila were equally well-protected, and fresh environmental isolates of L. pneumophila were equally well-erased, suggesting ecological relevance of this symbiont-mediated protection. We further show that protection was not mediated by impaired L. pneumophila uptake. Instead, we observed reduced virulence of L. pneumophila released from symbiont-containing amoebae that is strongly supported by transcriptome data. Interference with transition to the transmissive phase is thus likely the basis for this protection. Finally, our data indicate that the defensive response of amoebae harboring P. amoebophila leaves the amoebae with superior fitness reminiscent of immunological memory. Given that mutualistic associations between bacteria and amoebae are widely distributed, P. amoebophila and potentially other amoeba endosymbionts could be key elements in shaping environmental survival, abundance and virulence of this important pathogen thereby affecting frequency of human infection.