Project description:Microarray analysis of Myd88-/-Trif-/- and Myd88-/-Rip2-/- macrophage responses to WT or dotA mutant L. pneumophila. Experiment Overall Design: Bone marrow-derived macrophages from Myd88-/-Trif-/- and Myd88-/-Rip2-/- mice were infected with WT L. pneumophila (Lp02) or dotA mutant L. pneumophila (Lp03) for 4 hours. The RNA was extracted, processed, and hybridized onto Affymetrix 430 2.0 microarrays
Project description:Microarray analysis of Myd88-/-Trif-/- and Myd88-/-Rip2-/- macrophage responses to WT or dotA mutant L. pneumophila. Keywords: Expression profiling by microarray
Project description:Abstract Legionella pneumophila, the causative agent of Legionnaire’s disease, grows within macrophages and manipulates target cell signaling. Formation of a Legionella-containing replication vacuole requires the function of the bacterial type IV secretion system (Dot/Icm), which transfers protein substrates into the host cell cytoplasm. A global microarray analysis was used to examine the response of human macrophage-like U937 cells to low dose infections with L. pneumophila. The most striking change in expression was the Dot/Icm-dependent up-regulation of anti-apoptotic genes positively controlled by the transcriptional regulator NF-?B. Consistent with this finding, L. pneumophila triggered nuclear localization of NF-?B in human and mouse macrophage in a Dot/Icm-dependent manner. The mechanism of activation at low dose infections involved a signaling pathway that occurred independently of the TLR adaptor MyD88, and cytoplasmic sensor Nod1. In contrast, high MOI conditions caused a host cell response that masked the unique Dot/Icm-dependent activation of NF-?B. Inhibition of NF-?B translocation into the nucleus resulted in premature host cell death and termination of bacterial replication. In the absence of one anti-apoptotic protein, PAI-2, host cell death increased in response to L. pneumophila infection, indicating that induction of anti-apoptotic genes is critical for host cell survival. Keywords: time course, dose response
Project description:Abstract Legionella pneumophila, the causative agent of Legionnaire’s disease, grows within macrophages and manipulates target cell signaling. Formation of a Legionella-containing replication vacuole requires the function of the bacterial type IV secretion system (Dot/Icm), which transfers protein substrates into the host cell cytoplasm. A global microarray analysis was used to examine the response of human macrophage-like U937 cells to low dose infections with L. pneumophila. The most striking change in expression was the Dot/Icm-dependent up-regulation of anti-apoptotic genes positively controlled by the transcriptional regulator NF-?B. Consistent with this finding, L. pneumophila triggered nuclear localization of NF-?B in human and mouse macrophage in a Dot/Icm-dependent manner. The mechanism of activation at low dose infections involved a signaling pathway that occurred independently of the TLR adaptor MyD88, and cytoplasmic sensor Nod1. In contrast, high MOI conditions caused a host cell response that masked the unique Dot/Icm-dependent activation of NF-?B. Inhibition of NF-?B translocation into the nucleus resulted in premature host cell death and termination of bacterial replication. In the absence of one anti-apoptotic protein, PAI-2, host cell death increased in response to L. pneumophila infection, indicating that induction of anti-apoptotic genes is critical for host cell survival. Keywords: time course, dose response
Project description:wt and MyD88-/- murine bone marrow derived macrophages were infected with Legionella Pneumophila for 24h. RNA was isolated by phenol/chloroform precipitation. 400 ng RNA per sample were then reverse transcribed with the Life Technologies miR RT kit with megaplex primers. Reverse transcribed RNA was then loaded on the rodent Taqman Low Density Array (TLDA) Cards and run according to manufacturer´s recommendations
Project description:Differential gene expression of Dictyostelium discoideum after infection with Legionella pneumophila was investigated using DNA microarrays. A detailed analysis of the 24 h time point post infection was performed in comparison to three controls, uninfected cells and co-incubation with Legionella hackeliae and L. pneumophila DeltadotA. One hundred and thirty-one differentially expressed D. discoideum genes were identified as common to all three experiments and are thought to be involved in the pathogenic response. Functional annotation of the differentially regulated genes revealed that apart from triggering a stress response Legionella apparently not only interferes with intracellular vesicle fusion and destination but also profoundly influences and exploits the metabolism of its host. The results provide the basis for a better understanding of the complex host-pathogen interactions and for further studies on the Dictyostelium response to Legionella infection. The bacterial strains used in this study were L. pneumophila Philadelphia I JR32, L. pneumophila Philadelphia I JR32 LELA 3118 (dotA3118:Tn903 DLL LacZ) and L. hackeliae (ATCC 35250). The Legionella strains were grown on buffered charcoal yeast extract agar (BCYE) at 37M-BM-0C with 5% CO2 atmosphere for 3 days. The D. discoideum wild-type strain AX2 was grown at 23M-BM-0C in 75 cm2 cell-culture flasks with 10 ml HL5 medium. For infection, Dictyostelium cells were harvested, resuspended in a 1:1 solution of HL5 medium and Soerensen buffer. Fifteen millilitres of a 1M-CM-^W10e6 cells/ml suspension were seeded into a 75 square-cm cell culture flask and the amoebae were inoculated with 10e7 bacteria/ml. Three different pairs of infection were compared: 1. AX2 infected with L. pneumophila JR32 versus uninfected cells; 19 microarrays of seven independent infections; 2. AX2 infected with L. pneumophila JR32 versus AX2 infected with L. pneumophila JR32 delta DotA; 4 microarrays of two independent infections; 3. AX2 infected with L. pneumophila JR32 versus AX2 infected with L. hackeliae; 4 microarrays of two independent infections. 24h post infection the RNA was isolated from 1.5M-CM-^W10e7 Dictyostelium cells and microarray analysis was performed as described (Farbrother et al., 2006).
Project description:Differential gene expression of Dictyostelium discoideum after infection with Legionella pneumophila was investigated using DNA microarrays. A detailed analysis of the 24 h time point post infection was performed in comparison to three controls, uninfected cells and co-incubation with Legionella hackeliae and L. pneumophila DeltadotA. One hundred and thirty-one differentially expressed D. discoideum genes were identified as common to all three experiments and are thought to be involved in the pathogenic response. Functional annotation of the differentially regulated genes revealed that apart from triggering a stress response Legionella apparently not only interferes with intracellular vesicle fusion and destination but also profoundly influences and exploits the metabolism of its host. The results provide the basis for a better understanding of the complex host-pathogen interactions and for further studies on the Dictyostelium response to Legionella infection. The bacterial strains used in this study were L. pneumophila Philadelphia I JR32, L. pneumophila Philadelphia I JR32 LELA 3118 (dotA3118:Tn903 DLL LacZ) and L. hackeliae (ATCC 35250). The Legionella strains were grown on buffered charcoal yeast extract agar (BCYE) at 37M-BM-0C with 5% CO2 atmosphere for 3 days. The D. discoideum wild-type strain AX2 was grown at 23M-BM-0C in 75 cm2 cell-culture flasks with 10 ml HL5 medium. For infection, Dictyostelium cells were harvested, resuspended in a 1:1 solution of HL5 medium and Soerensen buffer. Fifteen millilitres of a 1M-CM-^W10e6 cells/ml suspension were seeded into a 75 square-cm cell culture flask and the amoebae were inoculated with 10e7 bacteria/ml. Three different pairs of infection were compared: 1. AX2 infected with L. pneumophila JR32 versus uninfected cells; 19 microarrays of seven independent infections; 2. AX2 infected with L. pneumophila JR32 versus AX2 infected with L. pneumophila JR32 delta DotA; 4 microarrays of two independent infections; 3. AX2 infected with L. pneumophila JR32 versus AX2 infected with L. hackeliae; 4 microarrays of two independent infections. 24h post infection the RNA was isolated from 1.5M-CM-^W10e7 Dictyostelium cells and microarray analysis was performed as described (Farbrother et al., 2006).
Project description:Differential gene expression of Dictyostelium discoideum after infection with Legionella pneumophila was investigated using DNA microarrays. A detailed analysis of the 24 h time point post infection was performed in comparison to three controls, uninfected cells and co-incubation with Legionella hackeliae and L. pneumophila DeltadotA. One hundred and thirty-one differentially expressed D. discoideum genes were identified as common to all three experiments and are thought to be involved in the pathogenic response. Functional annotation of the differentially regulated genes revealed that apart from triggering a stress response, Legionella apparently not only interferes with intracellular vesicle fusion and destination but also profoundly influences and exploits the metabolism of its host. The results provide the basis for a better understanding of the complex host-pathogen interactions and for further studies on the Dictyostelium response to Legionella infection. The bacterial strains used in this study were L. pneumophila Philadelphia I JR32, L. pneumophila Philadelphia I JR32 LELA 3118 (dotA3118:Tn903 DLL LacZ) and L. hackeliae (ATCC 35250). The Legionella strains were grown on buffered charcoal yeast extract agar (BCYE) at 37M-BM-0C with 5% CO2 atmosphere for 3 days. The D. discoideum wild-type strain AX2 was grown at 23M-BM-0C in 75 cm2 cell-culture flasks with 10 ml HL5 medium. For infection, Dictyostelium cells were harvested, resuspended in a 1:1 solution of HL5 medium and Soerensen buffer. Fifteen millilitres of a 1M-CM-^W10e6 cells/ml suspension were seeded into a 75 square-cm cell culture flask and the amoebae were inoculated with 10e7 bacteria/ml. Three different pairs of infection were compared: 1. AX2 infected with L. pneumophila JR32 versus uninfected cells; 19 microarrays of seven independent infections; 2. AX2 infected with L. pneumophila JR32 versus AX2 infected with L. pneumophila JR32 delta DotA; 4 microarrays of two independent infections; 3. AX2 infected with L. pneumophila JR32 versus AX2 infected with L. hackeliae; 4 microarrays of two independent infections. 24h post infection the RNA was isolated from 1.5M-CM-^W10e7 Dictyostelium cells and microarray analysis was performed as described (Farbrother et al., 2006).